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Sixth Edition
The World Economy
GEOGRAPHY, BUSINESS, DEVELOPMENT
Frederick P. Stutz
San Diego State University
Barney Warf
University of Kansas
Logo to come
Geography Editor: Christian Botting
Marketing Manager: Maureen McLaughlin
Editorial Project Managers: Anton Yakovlev, Crissy Dudonis
Assistant Editor: Kristen Sanchez
Editorial Assistant: Christina Ferraro
Marketing Assistant: Nicola Houston
Managing Editor, Geosciences and Chemistry: Gina M. Cheselka
Senior Project Manager, Science: Beth Sweeten
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Art Studio: Spatial Graphics
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Photo Researcher: Tim Herzog
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Cover Designer: Karen Salzbach
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Media Producer: Tim Hainley
Associate Managing Editor, Media: Liz Winer
Associate Media Project Manager: David Chavez
Cover photos: Pudong skyline, Shanghai, China, by Steve Allen, Getty
Images (front); Skyscrapers in Pudong, Shanghai, China, by Zheng
Xianzhang, TAO Images Limited/Alamy (back)
Copyright © 2012, 2007, 2005 by Pearson Education, Inc., publishing as Prentice Hall, 1 Lake Street, Upper Saddle River, New Jersey,
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Library of Congress Cataloging-in-Publication Data
Stutz, Frederick P.
The world economy : geography, business, development / Frederick P. Stutz, Barney Warf.—6th ed.
p. cm.
Includes bibliographical references and index.
ISBN-13: 978-0-321-72250-8 (alk. paper)
ISBN-10: 0-321-72250-7 (alk. paper)
1. Economic geography. 2. Economic history—1945- I. Warf, Barney, 1956- II. Title.
HC59.S8635 2012
330.9—dc22
2010045460
Printed in the United States
10 9 8 7 6 5 4 3 2 1
ISBN-10:
0-321-72250-7
ISBN-13: 978-0-321-72250-8
CONTENTS
Preface to the Sixth Edition ix
Acknowledgments xi
The Teaching and Learning Package xii
Geography Videos Online xiii
About the Authors xv
About Our Sustainability Initiatives xvi
Dedication
Chapter 1
xvii
Economic Geography: An Introduction
1
Geographic Perspectives 1
Five Analytical Themes for Approaching
Economic Geography 2
Modes of Theorizing in Economic
Geography 4
Location Theory 4
Political Economy 5
Poststructuralist Economic Geography 6
Capitalism 6
Economic Geography of the World
Economy 9
Globalization 12
Globalization of Culture and
Consumption 13
Telecommunications 13
Globalization of the Economy 13
Transnational Corporations 13
Globalization of Investment 14
Locational Specialization 14
Globalization of Services 15
Globalization of Tourism 15
Information Technology and
Globalization 15
Globalization versus Local Diversity 16
Problems in World Development 16
Environmental Constraints 16
Disparities in Wealth and
Well-Being 17
Summary and Plan 18
• Key Terms 19
• Study Questions 19
• Suggested Readings 19
• Web Resources 19
Chapter 2 The Historical Development of Capitalism 20
Feudalism and the Birth of Capitalism 21
Characteristics of Feudalism 21
The End of Feudalism 23
The Emergence and Nature of Capitalism 25
Markets 26
Class Relations 28
Finance 29
Territorial and Geographic Changes 29
Long-Distance Trade 31
New Ideologies 31
The Nation-State 33
The Industrial Revolution 35
Inanimate Energy 35
Technological Innovation 36
Productivity Increases 37
The Geography of the Industrial
Revolution 38
Cycles of Industrialization 40
Consequences of the Industrial
Revolution 41
CREATION OF AN INDUSTRIAL WORKING
CLASS 41
URBANIZATION 42
POPULATION EFFECTS 42
GROWTH OF GLOBAL MARKETS AND
INTERNATIONAL TRADE 43
CASE STUDY: Railroads and Geography
44
Colonialism: Capitalism on a World Scale 45
The Unevenness of Colonialism 45
How Did the West Do It? 46
A Historiography of Conquest 47
LATIN AMERICA 47
NORTH AMERICA 48
AFRICA 48
THE ARAB WORLD 49
SOUTH ASIA 50
EAST ASIA 50
SOUTHEAST ASIA 53
OCEANIA 54
The Effects of Colonialism 54
ANNIHILATION OF INDIGENOUS PEOPLES
RESTRUCTURING AROUND THE PRIMARY
ECONOMIC SECTOR 54
FORMATION OF A DUAL SOCIETY 54
54
iii
iv
Contents
POLARIZED GEOGRAPHIES 54
TRANSPLANTATION OF THE NATION-STATE
CULTURAL WESTERNIZATION 56
Resources and Reserves 98
55
The End of Colonialism 56
Summary 56 • Key Terms 57
• Study Questions 57
• Suggested Readings 57
• Web Resources 57
Chapter 3
Population
Renewable and Nonrenewable
Resources 98
Food Resources 99
Population Growth 101
Poverty 102
Maldistribution 102
Civil Unrest and War 102
58
Environmental Decline 103
Global Population Distribution 59
Government Policy and Debt 103
Population Density 60
Increasing Food Production 104
Factors Influencing Population
Distribution 62
Population Growth over Time and Space 63
Population Change 63
Expanding Cultivated Areas 104
Raising the Productivity of Existing
Cropland 104
Creating New Food Sources 105
Fertility and Mortality 64
Cultivating the Oceans 106
Malthusian Theory 64
High-Protein Cereals 107
CASE STUDY: Population and Land
Degradation 68
More Efficient Use of Foods 107
A Solution to the World Food Supply
Situation 107
Demographic Transition Theory 69
Stage 1: Preindustrial Society 69
Nonrenewable Mineral Resources 107
Stage 2: Early Industrial Society 73
Location and Projected Reserves of Key
Minerals 108
Stage 3: Late Industrial Society 75
Stage 4: Postindustrial Society 76
Contrasting the Demographic Transition
and Malthusianism 79
Criticisms of Demographic Transition
Theory 79
Environmental Impacts of Mineral
Extraction 109
Energy 109
Population Structure 80
The Baby Boom, an Aging Population, and
Its Impacts 82
Migration 84
Causes of Migration 84
Energy Production and Consumption 111
Oil Dependency 111
Production of Fossil Fuels 112
Adequacy of Fossil Fuels 112
Oil: Black Gold 113
The Economics of Migration 84
Natural Gas 113
Barriers to Migration 86
Coal 114
Characteristics of Migrants 86
Energy Options 115
Consequences of Migration 86
Conservation 115
Patterns of Migration 87
Internally Displaced Persons (IDPs)
Solutions to the Mineral Supply
Problem 108
91
CASE STUDY: The Great Depression (Baby
Bust) Ahead 92
Summary 93 • Key Terms 94
• Study Questions 94
• Suggested Readings 95
• Web Resources 95
Nuclear Energy 117
Geothermal Power 119
Hydropower 119
Solar Energy 120
CASE STUDY: Resources: Wind Energy 121
Wind Power 122
Biomass 122
Chapter 4
Resources and Environment
96
Resources and Population 97
Carrying Capacity and Overpopulation 98
Types of Resources and Their Limits 98
Environmental Degradation 122
Pollution 122
Air Pollution 122
Water Pollution 123
Contents
Wildlife and Habitat Preservation 123
Chapter 6
Regional Dimensions of Environmental
Problems 124
The Industrialization of Agriculture 159
CASE STUDY: Agro-Foods 159
From a Growth-Oriented to a BalanceOriented Lifestyle 127
Summary 127 • Key Terms 127
• Study Questions 128
• Suggested Readings 128
• Web Resources 129
Theoretical Considerations
Agriculture 156
The Formation of a Global Agricultural
System 158
Environmental Equity and Sustainable
Development 126
Chapter 5
Human Impacts on the Land 160
Factors Affecting Rural Land Use 161
Climatic Limitations 161
Cultural Preferences and Perceptions 161
Systems of Agricultural Production 162
Preindustrial Agriculture 163
130
PEASANT MODE OF PRODUCTION 164
SHIFTING CULTIVATION 164
PASTORAL NOMADISM 165
INTENSIVE SUBSISTENCE AGRICULTURE 166
Factors of Location 131
Labor 132
Land 133
Problems of Subsistence
Agriculturalists 167
Capital 134
Managerial and Technical Skills 135
Commercial Agriculture 168
The Weberian Model 137
U.S. Commercial Agriculture: Crops and
Regions 169
Weber in Today’s World 138
Technique and Scale Considerations 140
Commercial Agriculture and the Number of
Farmers 169
Scale Considerations 140
Principles of Scale Economies 140
Machinery and Other Resources in
Farming 170
Vertical and Horizontal Integration and
Diversification 141
Types of Commercial Agriculture 170
MIXED CROP AND LIVESTOCK FARMING 170
DAIRY FARMING 171
GRAIN FARMING 171
CATTLE RANCHING 175
MEDITERRANEAN CROPPING 176
HORTICULTURE AND FRUIT FARMING 176
Interfirm Scale Economies:
Agglomeration 141
Evaluation of Industrial Location
Theory 142
How and Why Firms Grow 143
Geographic Organization of
Corporations 144
U.S. Agricultural Policy 177
Organizational Structure 144
The Farm Problem in North America 177
Administrative Hierarchies 146
The U.S. Farm Subsidy Program 178
Sustainable Agriculture 180
The Von Thünen Model 181
Economic Geography and Social
Relations 146
Summary 182 • Key Terms 183
• Study Questions 183
• Suggested Readings 183
• Web Resources 183
Relations among Owners 146
Relations between Capital and Labor 146
Competition and Survival in Space 146
The Product Cycle 147
Business Cycles and Regional
Landscapes 148
Information Technology: The Fifth
Wave? 149
Business Cycles and the Spatial Division of
Labor 149
The State and Economic Geography 150
Summary 153 • Key Terms 154
• Study Questions 154
• Suggested Readings 154
• Web Resources 155
v
Chapter 7
Manufacturing
184
Major Concentrations of World
Manufacturing 185
North America 185
Europe and Russia 189
East Asia 192
Deindustrialization 193
The Dynamics of Major Manufacturing
Sectors 195
Textiles and Garments 195
vi
Contents
Steel 196
International Trade in Services 233
Automobiles 200
Electronic Funds Transfer Systems 234
Electronics 201
Offshore Banking 236
CASE STUDY: Export Processing
Zones 205
Back-Office Relocations 236
Consumer Services 239
Biotechnology 206
Tourism 239
Flexible Manufacturing 207
CASE STUDY: Medical Tourism 240
Summary 241 • Key Terms 242
• Study Questions 242
• Suggested Readings 243
• Web Resources 243
Fordism 207
Post-Fordism/Flexible Production 208
Summary 210 • Key Terms 210
• Study Questions 210
• Suggested Readings 211
• Web Resources 211
Chapter 8
Services 212
Defining Services 213
Forces Driving the Growth of Services 216
Rising Incomes 216
Demand for Health Care and
Education 217
Chapter 9
Transportation and Communications
Carrier Competition 252
An Increasingly Complex Division of
Labor 219
Freight Rate Variations and Traffic
Characteristics 252
The Public Sector: Growth and
Complexity 220
Regimes for International
Transportation 252
Service Exports 220
The Externalization Debate 221
Labor Markets in the Service
Economy 222
Characteristics of Services Labor
Markets 222
LABOR INTENSITY 222
INCOME DISTRIBUTION 223
GENDER COMPOSITION 224
LOW DEGREE OF UNIONIZATION 225
EDUCATIONAL INPUTS 226
Financial Services 227
COMMERCIAL BANKING 227
INVESTMENT BANKING 227
SAVINGS AND LOANS 227
INSURANCE 227
The Regulation of Finance 228
The Deregulation of Finance 229
The Financial Crisis of 2007–2009 230
Studies of Major Producer Services by
Sector 231
244
Transportation Networks in Historical
Perspective 245
Time-Space Convergence or
Compression 249
Transportation Infrastructure 250
General Properties of Transport Costs 251
Transportation, Deregulation and
Privatization 253
Hub-and-Spoke Networks 254
Personal Mobility in the
United States 254
Automobiles 254
High-Speed Trains and Magnetic
Levitation 256
Telecommunications 256
Fiber-optic Satellite Systems 258
Telecommunications and
Geography 259
Geographies of the Internet 261
Origins and Growth of the Internet 262
Social and Spatial Discrepancies in
Internet Access 263
CASE STUDY: Chinese Internet
Censorship 265
Social Implications of the Internet 265
E-Commerce 266
Accounting 231
E-Government 267
Design and Innovation 231
E-Business 267
Legal Services 232
Health Care 268
Summary 268 • Key Terms 268
• Study Questions 269
• Suggested Readings 269
• Web Resources 269
The Location of Producer Services 233
Interregional Trade in Producer
Services 233
Contents
Chapter 10 Cities and Urban Economies
vii
Inadequacies of Trade Theories 317
270
The Rise of the Modern City 271
Urban Economic Base Analysis 272
The Urban Division of Labor 277
Urban Residential Space 278
The Residential Location Decision 278
Fairness of Free Trade 317
Worsening Terms of Trade 317
Competitive Advantage 319
International Money and Capital
Markets 321
The Filtering Model of Housing 278
International Banking 321
Housing Demand and Supply 278
Euromarkets 321
The Sprawling Metropolis: Patterns and
Problems 279
Exchange Rates and International Trade 321
Why Exchange Rates Fluctuate 322
U.S. Trade Deficits 323
Out to the Exurbs 281
Results of the U.S. Trade Deficit 324
Suburbanization and Inner-City
Decline 282
Capital Flows and Foreign Direct
Investment 324
Gentrification 282
World Investment by Transnational
Corporations 324
Problems of the U.S. City 283
Urban Decay 285
The Crisis of the Inner-City Ghetto 285
Employment Mismatch 289
Investment by Foreign Multinationals in the
United States 325
Effects of Foreign Direct Investment 327
Global Cities 289
Urban Sustainability 292
CASE STUDY: Environmental Impacts of
Cities 293
Summary 295 • Key Terms 295
• Study Questions 296
• Suggested Readings 296
• Web Resources 297
Barriers to International Trade and
Investment 330
Management Barriers 330
Government Barriers to Trade 331
Tariffs, Quotas, and Nontariff Barriers 332
Effects of Tariffs and Quotas 332
Government Stimulants to Trade 333
Chapter 11 Consumption
298
Reductions of Trade Barriers 333
The Historical Context of
Consumption 299
Theoretical Perspectives on
Consumption 302
General Agreement on Tariffs and Trade 333
World Trade Organization 334
Government Barriers to Flows of
Production Factors 335
Sociological Views of Consumption 302
Neoclassical Economic Views 304
Multinational Economic
Organizations 335
Marxist Views of Consumption 305
International Financial Institutions 336
Geographies of Consumption 305
CASE STUDY: Commodity Chains
Regional Economic Integration 337
307
Environmental Dimensions of
Consumption 308
International Trade 313
339
THE EU’S SINGLE CURRENCY
North American Free Trade Agreement 339
Summary 310 • Key Terms 311
• Study Questions 311
• Suggested Readings 311
• Web Resources 311
Chapter 12 International Trade and Investment
The European Union 338
312
CASE STUDY: North American Free Trade
Agreement (NAFTA) 342
OPEC 343
Summary 344 • Key Terms 345
• Study Questions 345
• Suggested Readings 345
• Web Resources 345
Trade by Barter and Money 314
Comparative Advantage 315
Transport Costs and Comparative
Advantage 316
Heckscher-Ohlin Trade Theory 316
Chapter 13 International Trade Patterns
346
World Patterns of Trade 347
The United States 348
U.S. MERCHANDISE TRADE
349
viii
Contents
U.S. SERVICES TRADE 351
Canada 352
The European Union 352
Latin America 353
MEXICO 353
SOUTH AMERICA 354
Middle East and North Africa 383
Sub-Saharan Africa 384
Characteristic Problems of Less Developed
Countries 384
Rapid Population Growth 384
East Asia 354
Unemployment and
Underemployment 385
Japan 355
Low Labor Productivity 385
China 357
Lack of Capital and Investment 386
Taiwan 358
South Korea 358
Inadequate and Insufficient
Technology 386
Australia 358
Unequal Land Distribution 387
India 359
Poor Terms of Trade 387
South Africa 360
Foreign Debt 388
Russia 360
Restrictive Gender Roles 390
The Middle East 360
Corrupt and Inefficient Governments 390
Major Global Trade Flows 361
Microelectronics 361
Automobiles 361
Steel 362
Textiles and Clothing 363
Grains and Feed 363
Nonoil Commodities 363
Summary 364 • Key Terms 364
• Study Questions 364
• Suggested Readings 364
• Web Resources 365
Chapter 14 Development and Underdevelopment in the
Developing World 366
What’s in a Word? “Developing” 367
How Economic Development Is
Measured 368
GDP PER CAPITA 368
ECONOMIC STRUCTURE OF THE LABOR
FORCE 369
EDUCATION AND LITERACY OF A
POPULATION 369
HEALTH OF A POPULATION 372
CONSUMER GOODS PRODUCED 375
URBANIZATION IN DEVELOPING
COUNTRIES 376
CASE STUDY: Remittances 379
Geographies of Underdevelopment 380
Trends and Solutions 392
Major Theoretical Perspectives
on Global Patterns of Development 392
Modernization Theory 392
Dependency Theory 395
World-Systems Theory 396
Regional Disparities within Developing
Countries 397
Development Strategies 397
Expansion of Trade with Less Developed
Countries 398
Private Capital Flows to Less Developed
Countries 398
Foreign Aid from Economically Developed
Countries 399
Industrialization in the Developing
World 399
Import-Substitution Industrialization 400
Export-Led Industrialization 400
Sweatshops 401
The East Asian Economic Miracle 401
Sustainable Development 404
Summary 406 • Key Terms 407
• Study Questions 407
• Suggested Readings 407
• Web Resources 408
Latin America 381
Glossary 411
Southeast Asia 382
References 421
East Asia (Excluding Japan) 383
Credits 423
South Asia 383
Index 425
PREFACE TO THE SIXTH EDITION
The World Economy: Geography, Business, Development, Sixth Edition, offers a comprehensive overview of the discipline
of economic geography and how it sheds light on issues of development and underdevelopment, international trade and
finance, and the global economy. In an age of intense globalization, an understanding of these issues is central to both
liberal arts and professional educations, including the concerned voter, the informed consumer, and the alert business
practitioner.
In keeping with the discipline’s growing concern for political and cultural issues, which recognizes that the economy
cannot be treated separately from other domains of social activity, The World Economy focuses on the political economy
of capitalism, including class, gender, and ethnic relations. Throughout, it synthesizes diverse perspectives—ranging from
mainstream location theory to poststructuralism—to reveal capitalism as a profoundly complex, important, and fascinating set of spatial and social relations. It explores conceptual issues ranging from the locational determinants of firms to
the role of the state in shaping market economies. It approaches international development in an intellectually critical
manner, emphasizing multiple theoretical views concerned with the origins and operations of the global economy.
Anyone concerned about population growth and its consequences, environmental degradation, energy use and alternatives to fossil fuels, technological change, international competitiveness, public policy, urban growth and decline, and
economic development in the underdeveloped world, requires a basic understanding of economic geography.
NEW TO THE SIXTH EDITION
The sixth edition has been thoroughly updated to reflect the current dynamic nature of the world economy. Updates
include:
• Twelve new case studies provide relevant applications to add additional context and exploration of the chapter
concepts, set aside so as not to interrupt the main flow of the chapter narrative:
Chapter
Chapter
Chapter
Chapter
Chapter
Chapter
Chapter
Chapter
Chapter
Chapter
Chapter
Chapter
2:
3:
3:
4:
6:
7:
8:
9:
10:
11:
12:
14:
Railroads and Geography
Population and Land Degradation
The Great Depression (Baby Bust) Ahead
Resources: Wind Energy
Agro-Foods
Export Processing Zones
Medical Tourism
Chinese Internet Censorship
Environmental Impacts of Cities
Commodity Chains
North American Free Trade Agreement (NAFTA)
Remittances
• Revised discussion of manufacturing streamlines coverage of U.S. manufacturing substantially and enhances
coverage of the causes of deindustrialization. Discussion of the global shift of manufacturing to the developing
world is included.
• Updated coverage of services adds a short section on the financial crisis and recession that began in 2008, and
enhances discussion of tourism.
• Streamlined coverage of transportation and communications shortens the discussion of the technicalities of
transportation costs and aspects of communications technologies. Data on the use of the Internet have been updated
throughout.
• Revised coverage of cities and urban economies adds a section on the urban division of labor. Discussion of residential choice has been streamlined. Given the rising significance of environmental issues, discussions of related
topics such as urban sustainability have been integrated.
• Updated material on international trade and investment expands arguments in favor of protectionism.
• Reduced emphasis on the United States allows for greater exploration of other regions, such as the European
community and the developing world.
• Population data are updated throughout. Discussion of Malthusianism is enhanced, and coverage of the baby
boom is included, showing the perilous tension between the reduction of consumption (which drives the economy)
and the increase in the cost of aging through entitlement and health care costs.
• Discussion of the Weber model is streamlined in the book’s theoretical coverage.
ix
x
Preface to the Sixth Edition
• Revised agriculture coverage reorganizes material on preindustrial agriculture.
• End-of-chapter material throughout has been revised and updated, including recommended readings and
Websites, key terms, and study questions.
• Tables and data throughout the text are updated—by far the most comprehensive of any textbook on the world
economy and economic geography.
• A new Premium Website at www.mygeoscienceplace.com. The new edition is supported by a Premium
Website, accommodating instructors’ need for a variety of teaching resources to match this dynamic discipline.
Modules include:
• New geography videos (from TVE’s Earth Report and Life series)
• In the News RSS feeds of current news related to chapter topics
• Web links and references
• Quizzes
• PowerPoint® presentations of lecture material and JPEG and PDF files of all tables and most figures
The World Economy offers a comprehensive introduction to the ways in which economic activity is stretched over
the space of the earth’s surface. Economists all too rarely take the spatial dimension seriously, a perspective that implies
all economic activity occurs on the head of a pin. In the real world, space matters at scales ranging from everyday life
to the unfolding of the capitalist world system. Geographers are interested in the manner in which social relations and
activities occur unevenly over space, the ways in which local places and the global economy are intertwined, and the
difference that location makes to how economic activity is organized and changes over time. No social process occurs in
exactly the same way in different places; thus, where and when economic activity occurs has a profound influence on
how it occurs. As globalization has made small differences among places around the world increasingly important, space
and location have become more, not less, significant.
Some students wrongly assume that economic geography is dominated by dry, dusty collections of facts and
maps devoid of interpretation. This volume aims to show them otherwise: Economic Geography has become profoundly
theoretical, while retaining its traditional capacity for rich empirical work. Others are intimidated by the mathematics of
neoclassical economics, believing that economic analysis can only be done by those with advanced degrees. This volume
does not presume that the student has a background in economics. It makes use of both traditional economic analysis as
well as political economy to raise the reader’s understanding to a level above that of the lay public but not to the degree
of sophistication expected of an expert. In doing so, this book hopes to show that economic geography offers insights
that make the world more meaningful and interesting. It is simultaneously an academic exercise, in the sense that it sheds
light on how and why the world is structured in some ways and not others, and a very practical one, that is, as a useful
narrative for those studying business, trade, finance, marketing, planning, and other applied fields. Each chapter includes
a summary, key terms, study questions, suggested readings, and useful Websites for those curious enough, brave enough,
and energetic enough to explore further. Following the introduction (Chapter 1), Chapter 2 puts today’s economic issues in
a historical context by providing an overview of the rise of capitalism and its global triumph over the last half-millennium.
The volume then lays out the basics of population distribution and growth (Chapter 3) as well as the production and use
of resources (Chapter 4), two major dimensions that underpin the economic health (or lack thereof) of different societies.
Chapter 5 summarizes major theoretical issues that run throughout the subsequent explications of agriculture, manufacturing, and services (Chapters 6–8). Chapter 9 focuses on the movement of people, goods, and information, reflecting
geography’s mounting concern for flows rather than simply places, while Chapter 10 delves into the economic geography
of cities. Consumption, a topic too often ignored in this field, is taken up in Chapter 11. Chapters 12 and 13 describe
global patterns of international finance, investment, and trade, that is, the networks of money, inputs, and outputs that
increasingly suture together different parts of the world. Finally, Chapter 14 focuses on the three-quarters of humanity
who live in the developing world, including issues of the uneven geography of capitalist development, poverty, and the
possibilities of growth in a highly globalized world system.
CAREERS INVOLVING ECONOMIC GEOGRAPHY
Aside from the appreciation of how economic landscapes are produced, how they change, and their implications for citizens, tourists, consumers, and voters, Economic Geography is increasingly important to the professional world. Given
how significant globalization has become in the contemporary world, there is almost no career that does not involve some
understanding of the dynamics of the world economy. Businesses and corporations increasingly operate on a worldwide
scale, in several national markets simultaneously, and must cope with foreign competitors, imports, and currencies.
National, and increasingly local, public policy is shaped in part by international events and processes. A key goal of this
volume, therefore, is to encourage students to “think globally,” to appreciate their lives and worlds as moments within
broader configurations of economic, cultural, and political relations. For example, people with an appreciation of
Preface to the Sixth Edition
xi
Economic Geography never view the grocery store in the same light: What once appeared ordinary and mundane
suddenly becomes a constellation of worldwide processes of production, transportation, and consumption.
Economic Geography is useful professionally in several respects. It allows those who study it to understand corporate behavior in spatial terms, including investment, employment, and marketing strategies. It facilitates the complex and
important decisions made by managers and executives. Consulting firms often use Economic Geography principles in assisting firms in deciding where to invest and locate production. The analysis of global processes is vital to those involved
in public policymaking and the rapidly growing world of nongovernmental organizations. An understanding of trade
regimes, such as the North American Free Trade Agreement (NAFTA) or the European Union, for example, is critical to
appreciating trade disputes and currency fluctuations.
Anyone involved in business, marketing, advertising, finance, transportation, or communications will benefit from a
grounding in Economic Geography. As corporations increasingly become global in orientation, knowing about the
world’s uneven patterns of wealth and poverty, changing development prospects, energy usage, and the mosaic of government policies around the world is essential. Many jobs that involve Economic Geography are not labeled “geographer”
per se, but fall under different titles. A useful introduction to careers in this field may be found at the Website of the
Association of American Geographers (http://www.aag.org/), which has a section on jobs and careers.
ACKNOWLEDGMENTS
We are grateful to many people who helped us in this endeavor. Numerous colleagues in the discipline of geography,
within our departments and throughout North America and Europe, have inspired us in many ways, often without knowing it! Christian Botting of Pearson has been helpful in guiding the revision. Sylvia Rebert meticulously reviewed and managed the copyediting and page proof process for every chapter, clarifying points and polishing the writing. James
Rubenstein, author of The Cultural Landscape: An Introduction to Cultural Geography, graciously allowed us to use several of his figures. Matthew Engel (Northwest Missouri State University) has written the Test Bank for the book, Melvin
Johnson (Northwest Missouri State University) has authored the PowerPoint® slides, and Luke Ward (Michigan State
University) has written the chapter quizzes. Kevin Lear and Spatial Graphics have developed the new maps and figures in
this volume.
The following people have reviewed the previous edition of the book and played a key role in the revision plan for
the new edition: Steven W. Collins (University of Washington), Melanie Rapino (University of Memphis), Jeffrey Osleeb
(University of Connecticut), Hongbo Yu (Oklahoma State University), Lee Liu (University of Central Missouri), Gabriel
Popescu (University of Indiana—South Bend), Paul A. Rollinson (Missouri State University—Springfield), and Joseph
Koroma (Olympic College).
The following people have reviewed the chapters and the online material for accuracy: Lee Liu, Gabriel Popescu,
and Michael Ewers (Texas A&M University). We would like to thank the members of the Pearson team, including Project
Manager Beth Sweeten, Editorial Project Manager Anton Yakovlev, Marketing Manager Maureen McLaughlin, Senior
Technical Art Specialist Connie Long, Assistant Editor Kristen Sanchez, Associate Media Producer Tim Hainley, and
Editorial Assistant Christina Ferraro. Finally, we thank our friends and families.
Frederick P. Stutz
Department of Geography
San Diego State University
San Diego, California
http://www.frederickstutz.com
Barney Warf
Department of Geography
University of Kansas
Lawrence, Kansas
http://www2.ku.edu/~geography/peoplepages/Warf_B.shtml
THE TEACHING AND LEARNING PACKAGE
In addition to the text itself, the authors and publisher have worked with a number of talented people to produce an
excellent instructional package.
PREMIUM WEBSITE FOR THE WORLD ECONOMY: GEOGRAPHY, BUSINESS,
DEVELOPMENT
The World Economy, Sixth Edition, is supported by a Premium Website at www.mygeoscienceplace.com, accommodating instructors’ need for dynamic teaching resources to match this dynamic discipline. Modules include:
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New geography videos (from Television for the Environment’s Earth Report and Life series)
RSS feeds of current news related to chapter topics
Web links and references
Quizzes
Lecture PowerPoints®
Television for the Environment’s Earth Report Geography Videos on DVD (0321662989)
This three-DVD set is designed to help students visualize how human decisions and behavior have affected the environment
and how individuals are taking steps toward recovery. With topics ranging from the poor land management promoting the
devastation of river systems in Central America to the struggles for electricity in China and Africa, these 13 videos from
Television for the Environment’s global Earth Report series recognize the efforts of individuals around the world to unite and
protect the planet.
Television for the Environment’s Life World Regional Geography Videos on DVD (013159348X)
This two-DVD set from Television for the Environment’s global Life series brings globalization and the developing world to
the attention of any geography course. These 10 full-length video programs highlight matters such as the growing number
of homeless children in Russia, the lives of immigrants living in the United States trying to aid family still living in their native countries, and the European conflict between commercial interests and environmental concerns.
Television for the Environment’s Life Human Geography Videos on DVD (0132416565)
This three-DVD set is designed to enhance any geography course. These DVDs include 14 full-length video programs
from Television for the Environment’s global Life series, covering a wide array of issues affecting people and places in the
contemporary world, including the serious health risks of pregnant women in Bangladesh, the social inequalities of the
“untouchables” in the Hindu caste system, and Ghana’s struggle to compete in a global market.
Goode’s World Atlas, 22nd Edition (0321652002)
Goode’s World Atlas has been the world’s premiere educational atlas since 1923, and for good reason. It features over
250 pages of maps, from definitive physical and political maps to important thematic maps that illustrate the spatial
aspects of many important topics. The 22nd Edition includes 160 pages of new, digitally produced reference maps, as well
as new thematic maps on global climate change, sea level rise, carbon dioxide emissions, polar ice fluctuations, deforestation, extreme weather events, infectious diseases, water resources, and energy production.
TestGen® Computerized Test Bank for The World Economy: Resources, Location, Trade, and Development
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TestGen® is a computerized test generator that lets instructors view and edit Test Bank questions, transfer questions to tests,
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and short-answer/essay questions mapped against the chapters of The World Economy, Sixth Edition. Questions map to the
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GEOGRAPHY VIDEOS ONLINE
The videos listed here, available on the book’s Premium Website with quizzes, are real-world examples of the effects of
globalization on the world economy, on local communities, and on individuals in the contemporary world. These videos
are taken from Television for the Environment’s Life and Earth Report series.
Chapter 1: Cash Flow Fever
There have always been economic migrants—people who swap regions, countries, even continents—to find better wages
to pay for a better life. Immigrants living in the United States send millions of dollars back to countries of origin each year.
This video examines their lives in America and how their remittances (money sent home) impact their villages and families.
Chapter 2: The Trade Trap
Many barriers to international trade have fallen, but now the developing world faces new challenges. This video examines Ghana’s attempt to compete in a global market with maize, poultry, bananas, pineapples, and smoked fish.
Chapter 2: The Outsiders
Population issues, cultural westernization, and drugs flowing into Ukraine within the vacuum of Communist politics have
threatened the new capitalist economy. Under the Soviet rule in Eastern Europe, young peoples’ lives were defined by
rigid structures. This video explores how newly found freedom and capitalism has brought opportunity, uncertainty, and,
to some, a loss of the sense of belonging.
Chapter 3: Staying Alive
In the developing world, women are still at serious risk of death during pregnancy and childbirth. Fertility and infant mortality rates are high. This video examines the plans to reduce maternal mortality in Bangladesh.
Chapter 4: Blue Danube?
This video tracks the Danube River through Eastern Europe examining both the Communist legacy of neglect and the current conflict between commercial interests and environmental concerns. Water pollution, wildlife habitat preservation,
and regional dimensions of environmental problems are discussed.
Chapter 4: Payback Time
This video explores how the reduction of carbon emissions and the need for rapid introduction of renewable energy has
become a race to save the planet. Britain is currently behind many countries in the switch to renewable energy such as
solar and wind power. Installing solar in the UK is so expensive it takes an individual 40 to 50 years to get the money
back. In Germany, it takes just 12 years and they end up making money because people can sell electricity back to the
grid at a price guaranteed for 20 years.
Chapter 4: Warming Up in Mongolia
This video shows how Mongolia is faced with the challenge of erasing the lax Communist environmental past and moving
into a modern society with a free-market economy. Mongol herders are depicted on horseback, yet the major cities produce high levels of pollution and the whole region is faced with climate change, which threatens a way of life.
Chapter 5: Slum Futures
This video provides a vivid picture of the slums of Mumbai (Bombay), India, and looks at the relationships among capital, owners, and survival in space. The video concludes with the possibility of improving this dire urban slum situation
and the economic geography of social relations, in situ.
Chapter 6: Coffee-Go-Round
Coffee demand is growing worldwide but coffee growers are in a crisis. This video visits Ethiopia, the cradle of coffee
growing, and speaks to players in the international coffee trade to find out how individual coffee growers can survive the
boom and bust of the global coffee market.
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Geography Videos Online
Chapter 7: Geraldo’s Brazil
This video investigates the effects of globalization on South American manufacturing through the story of Geraldo De
Souza. De Souza is an autoworker in South America’s largest city, Sao Paulo, Brazil.
Chapter 8: Kill or Cure?
This video shows how, for over a decade, India has been the powerhouse behind low-cost drugs for the developing
world, especially Africa and Asia. India’s $4.5 billion pharmaceutical industry is now at a crossroads following a law introduced in January 2005. It’s opened a highly charged debate, with opinion split right down the middle.
Chapters 9 and 10: Tale of Two Cities
“It was the best of times, it was the worst of times, it was the age of wisdom, it was the age of foolishness. . . .” This video
draws on Charles Dickens’s opening of A Tale of Two Cities to compare London and Beijing. Both cities have hosted or
will host the Olympics partly on green promises of future sustainability. But do they measure up?
Chapter 10: The Barcelona Blueprint
Once the industrial heart of the region of Catalonia in Spain, Barcelona could have become just another burnt-out, Rust
Belt European city that had failed to find a role in the modern, globalized world. But what set Barcelona apart from other
European cities was a visionary local government that decided on radical redevelopment of the city in the run-up to the
1992 Olympics—a redevelopment that involved all the city’s population. This video examines the result—Barcelona today
is a model twenty-first century city, combining historic buildings with modern architecture in a fusion that has helped
make it one of the most popular tourist destinations in Europe.
Chapter 13: Smokeless in China
China is one of the world’s fastest-growing industrial powerhouses. As the demand for energy increases, the government
invests in large-scale energy projects like the Three Gorges Dam. While large-scale projects provide short-term solutions
for cities, the need of over 600 million people for energy in rural areas is disregarded. But in one rural area, new efforts
are underway to provide people with alternative, low-impact forms of energy. This video travels to the remote province
of Yunnan to investigate how it is beginning to use alternative sources of energy to fuel its rural communities.
Chapter 14: Untouchable
Development and underdevelopment in the developing world is demonstrated in this video by the life of a clothes washer in a low-caste Indian village. Although discrimination by caste is illegal in India, social inequity persists with accompanying underemployment and low labor productivity.
Chapter 14: Power Struggle
In Uganda, 97% of the population is without access to electricity. One of the greatest challenges in Uganda is obtaining
energy for businesses. It is one of the reasons that the country is among the poorest in the world. There isn’t a single prosperous country that does not have a secure nationwide power supply. Biomass-dependent countries such as Uganda will
fall ever further behind and become ever more environmentally impoverished until affordable power is available. This
video looks at the African power struggle for light and electricity.
ABOUT THE AUTHORS
Frederick P. Stutz, Professor of Geography, San Diego State
University, Emeritus, and Mesa College, San Diego, received his PhD at
Michigan State University, his MA at Northwestern University, and BA
at Valparaiso University. His current research interest is the economics
of urban traveler energy sustainability: “Space-Time Utility Measures for
Urban Travel Purposes.” He has authored five books and 60 refereed
journal articles and has been principal investigator under seven
U.S. government contracts with the Environmental Protection
Agency, Department of Transportation, Urban Mass Transportation
Administration, and the U.S. Department of State. He has led group
study expeditions to every continent. In San Diego, tennis is his racket.
Barney Warf is Professor of Geography at the University of Kansas. He
received his PhD at the University of Washington in 1985. His current
areas of research are political economy, social theory, producer services,
financial markets, telecommunications, the geography of cyberspace,
military spending, and international trade. He has authored or edited six
books, two encyclopedias, and 100 journal articles.
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ABOUT OUR SUSTAINABILITY INITIATIVES
This book is carefully crafted to minimize environmental impact. The materials used to manufacture this book originated
from sources committed to responsible forestry practices. The paper is Forest Stewardship CouncilTM (FSC®) certified.
The printing, binding, cover, and paper come from facilities that minimize waste, energy consumption, and the use
of harmful chemicals.
Pearson closes the loop by recycling every out-of-date text returned to our warehouse. We pulp the books, and the
pulp is used to produce items such as paper coffee cups and shopping bags. In addition, Pearson aims to become the first
climate neutral educational publishing company.
The future holds great promise for reducing our impact on Earth’s environment, and Pearson is proud to be leading
the way. We strive to publish the best books with the most up-to-date and accurate content, and to do so in ways that
minimize our impact on Earth.
xvi
Dedication
For Cathie
—Frederick P. Stutz
For Santa Arias
—Barney Warf
OBJECTIVES
쑺 To acquaint you with the discipline of geography and
the subfield of economic geography
쑺 To discuss five major analytical themes useful in
comprehending social and spatial issues
쑺 To summarize the major paradigms for approaching
economic geography
Capitalist development, often expressed most
intensely in the built environment of the city, reflects
the constellations of forces that produce landscapes
in different places and times. In Manhattan, flows of
capital, labor, energy, raw materials, and information
interact with the local physical environment to
generate a unique combination that is both global
and local simultaneously.
쑺 To introduce capitalism as a system that forms the
major focus of this volume
쑺 To note the various dimensions of globalization
쑺 To situate economic geography within the context of
world development problems
CHAPTER
Economic Geography:
An Introduction
1
GEOGRAPHIC PERSPECTIVES
Everything that happens on the earth’s surface is geographic. All social processes, events, problems, and issues, from
the most local—your body—to the most global, are inherently geographic; that is, they take place in space, and
where they are located influences their origins, nature, and trajectories over time. Everything that is social is also
spatial, that is, it happens someplace. Where you are sitting now, how you got there, where you live and work, the
patterns of buildings and land uses in your school or city, transport routes, and the ways people move through
them all are different facets of geography; so are the distributions of the world’s cultures, the patterns of wealth and
poverty, the flows of people, goods, disease, and information.
Geography is the study of space, of how the earth’s surface is used, of how societies produce places, and how
human activities are stretched among different locations. In many respects, geography is the study of space in much
the same way that history is the study of people in time. This conception is very different from simplistic popular
stereotypes that portray geographers as a boring bunch concerned only with drawing boundaries and obsessed
with memorizing the names of obscure capital cities. Essentially, the discipline of geography examines why things are
located where they are. Simply knowing where things are located is relatively simple; anyone with a good atlas can
find out, say, where bananas are grown or the distribution of petroleum. Geographers are much more interested in
explaining the processes that give rise to spatial distributions, not simply mapping those patterns. Much more interesting than simply finding patterns on the earth’s surface is the explanation linking the spatial outcomes to the social
and environmental processes that give rise to them. Thus, geographers examine not only where people and places
are located but how people understand those places, give them meaning, change them, and are in turn changed by
them. Because this issue involves both social and environmental topics, geography is the study of the distribution of
both human and natural phenomena and lies at the intersection of the social and physical sciences.
All social processes and problems are simultaneously spatial processes and problems, for everything social occurs
somewhere. More important, where something occurs shapes how it occurs. Place is not some background against
which we study social issues, but it is part of the nature and understanding of those issues. Geographers ask questions
related to location: Why are there skyscrapers downtown? Why are there famines in Africa? How does the sugar industry affect the Everglades? Why is Scandinavia the world’s leader in cell phone usage? How is the North American Free
Trade Agreement (NAFTA) reshaping the U.S., Canadian, and Mexican economies? Why is China rapidly becoming a
global economic superpower? How has the microelectronics revolution changed productivity and competitiveness and
the global locational dynamics of this sector? What can be done about inner-city poverty?
To view the world geographically is to see space as socially produced, as made rather than simply given, that is,
as a product of social relations, a set of patterns and distributions that change over time. This means that geographic
landscapes are social creations, in the same way that your shirt, your computer, your school, and your family are also
social creations. Geographers maintain that the production of space involves different spatial scales, ranging from the
smallest and most intimate—the body—to progressively larger areas, including neighborhoods, regions, nations, and
the least intimate of all, the global economy.
Because places and spaces are populated—inhabited by people, shaped by them, and given meaning by them—
geographers argue that all social processes are embodied. The body is the most personal of spaces, the “geography
closest in.” Individuals create a geography in their daily life as they move through time and space in their ordinary
routines. Societies are formed by the movements of people through space and time in everyday life. In local communities, neighborhoods, and cities—the next larger scale—these movements form regular patterns that reflect a society’s
1
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The World Economy: Geography, Business, Development
organization, its division of labor, cultural preferences and
traditions, and political opportunities and constraints.
Geographies thus reflect the class, gender, ethnicity, age,
and other categories into which people sort themselves.
Spatial patterns reflect the historical legacy of earlier social
relations; political and economic organization of resources;
the technologies of production, transportation, and communications; the cultures that inform behavior and guide
it; and legal and regulatory systems. The global economy
itself—an intertwined complex of markets and countries—
involves planet-wide patterns of production, transportation,
and consumption, with vast implications for the standard
of living and life chances of people in different areas.
Geographers study how societies and their landscapes
are intertwined. To appreciate this idea, we must recognize
that social processes and spatial structures shape each
other in many ways. Societies involve complex networks
that tie together economic relations of wealth and poverty,
political relations of power, cultural relations of meanings,
and environmental processes as well. Geographers examine how societies and places produce one another, including not only the ways in which people organize themselves
spatially but also how they view their worlds, how they
represent space, and how they give meaning to it.
Divorcing one dimension, say the economic, from another,
such as the political, is ultimately fruitless, but to make the
world intelligible we must approach it in manageable
chunks. This text centers upon only one aspect of this set
of phenomena, economic landscapes.
Economic geography is a subdiscipline concerned
with the spatial organization and distribution of economic
activity (production, transportation, communication, and
consumption); the use of the world’s resources; and the
geographic origins, structure, and dynamics of the world
economy. Economic geographers address a wide range of
topics at different spatial scales using different theories and
methodologies. Some focus on local issues such as the impacts of waste incineration facilities, while others study
global patterns of hunger and poverty. Conceptual approaches found in economic geography include models of
supply and demand, political economic analyses focused on
class and power, feminist theorizations centered on gender,
and views that deliberately blur the boundaries between the
“economic” and other spheres of society such as culture,
consumption, and politics. Methodologically, economic
geographers use a range of tools that includes geographic
information systems, mathematical models, and qualitative
assessments based on interviews and field work.
FIVE ANALYTICAL THEMES FOR
APPROACHING ECONOMIC GEOGRAPHY
One means of starting a comprehensive analysis of economic geography is through five analytical themes, which
will reappear in different ways throughout this book.
These broad generalizations are designed to encourage
you to think about economic landscapes and include: (1)
the historical specificity of geographies; (2) the intercon-
nectedness of regions, particularly with the rise of the
global capitalist economy; (3) the interpenetration of
human and biophysical systems; (4) the importance of culture and everyday life in the creation of social and spatial
relations; and (5) the centrality of comprehending social
structures and their spatial manifestations.
1. The study of space is inseparable from the
study of time. If one accepts the discipline of geography
as the study of human beings in space and history as its
temporal counterpart, then this theme implies that geography and history are inseparable, indeed indistinguishable.
It is the accumulated decisions of actors in the past—firms,
individuals, organizations, governments, and others—that
created the present, and it is impossible to explain the
contemporary world meaningfully without continual reference to their actions and the meanings they ascribed to
them. Historical awareness undercuts the common assumption that the present is the “typical” or “normal” way
in which human beings organize themselves, for it is history as much as geography that teaches us the full range and
diversity of human behavior, cultures, and social systems.
All geographies are constructed historically, and all histories unfold spatially. Such an emphasis leads directly to the
question of how histories and geographies are produced,
particularly through the everyday lives of ordinary individuals. Historical geography—a redundancy, for all geography is inescapably historical—is thus much more than
simple reconstructions of past worlds; it is the analysis of
the reproduction of social systems over space-time as they
are transformed into the present.
But there is a broader meaning to unveil here. Taking
history seriously means acknowledging that geographies are
always changing, that they are forever in flux, that landscapes are humanly created and therefore plastic and
mutable. History is produced through the dynamics of everyday life, the routine interactions and transient encounters
through which social formations are reproduced. “Time” is
thus not some abstract independent process; it is synonymous with historical change (but not necessarily progress)
and the capacity of people to make, and change, their
worlds. There is, for example, no need to accept the geography of poverty (at any spatial scale) as fixed and inevitable,
whether in New York City or Bangladesh. Like landscapes
or buildings, poverty is socially constructed, the outcome of
political and economic forces. To understand how geographies are produced historically, therefore, is to focus on the
dynamics that underpin their creation. Views that purport to
represent a “snapshot in time,” therefore, are more deceiving
than illuminating; it is the process that underlies the creation
of places that is central, the social dynamics at work, not
their appearance at one instant in time.
2. Every place is part of a system of places.
Unlike traditional approaches to geography, which studied
regions in isolation, this theme notes that all regions are
interconnected, that is, they never exist in isolation from
one another. Indeed, places are invariably tied together to
a greater or lesser extent by the biophysical environment
(e.g., winds and currents, flows of pollution), flows of
Chapter 1 • Economic Geography: An Introduction
people (migration), capital (investment), and goods (trade),
and the diffusion of information, innovations, and disease.
Places are inevitably part of a network of places because
contemporary social relations stretch across regions. It follows that what happens in one place must affect events in
others; the consequences to action are never purely local.
For example, the Chernobyl meltdown in Ukraine in 1986
led to clouds of radioactive emissions that crossed
Scandinavia and entered North America; the North
American Free Trade Agreement (NAFTA) links regions
from southern Mexico to Quebec; and the jet airplane
made the contemporary world vulnerable to new diseases
such as AIDS and swine flu.
While this theme holds in the study of many places
throughout history, it is especially relevant since the rise of
capitalism on a global basis beginning in the sixteenth
century. More broadly, the global system of nations and
markets has tied places together to an unprecedented degree, including international networks of subcontracting,
telecommunications, transnational firms, and worldwide
markets, as any trip to the grocery store will attest.
3. Human action always occurs in a biophysical
environment. The biophysical environment (or in common
parlance, “nature,” a term that suffers from its popularity
and unfortunately carries connotations of the nonsocial or
“natural”) includes the climate, topography, soils, vegetation,
and mineral and water resources of a region, and affects
everything from the length of a growing season to transport costs to energy supplies. It is important to acknowledge that these factors affect the construction of histories
and geographies. But the interpenetration of people and
nature is a two-way street. Everywhere, nature has been
changed by human beings, for example, via the modification of ecosystems; annihilation of species; soil erosion;
air, ground, and water pollution; changed drainage patterns; agriculture; deforestation; desertification; disruptions
of biogeochemical cycles; and more recently, alterations in
the planetary atmosphere (e.g., global warming). Indeed,
human beings can’t live in an ecosystem without modifying it. More recently, political ecology has much to say
about the interactions of capitalism, culture, and nature. In
short, the formation of geographies is neither reducible to
the biophysical environment nor independent of it.
This theme points to how geographies are produced
in the context of particular biophysical environments and
how those environments are always and everywhere
changed through human actions. For example, think about
human modifications of the New World prior to the
Columbian encounter, which dispels the myth that native
peoples left their world in a state of untouched virginal innocence. Political conflicts over, say, water and petroleum
in the Middle East, or diamonds in Africa, illustrate the role
of nature in current geopolitics. The spatial structure of the
Industrial Revolution may be seen as profoundly preconditioned by the location of the large coal deposits in the
north European lowlands stretching from Wales to Silesia.
4. Culture—the shape of consciousness—is fundamental to economic geography. This theme begins
3
with the recognition that human beings are sentient beings;
that is, they have consciousness about themselves and their
world, as manifested in their perceptions, cognition, symbolic form, and language, all of which are fundamental to
any understanding of the human subject. Social science is
thus fundamentally different from analyses of the nonhuman world, in which the consciousness of what is studied
is not at issue (except, perhaps, in the behavior of some
animals). Moving beyond the usual elementary definitions
of culture as the sum total of learned behavior or a “way of
life” (religion, language, mores, traditions, roles, etc.), social theory allows for an understanding of culture as what
we take for granted, that is, common sense, the matrix of
ideologies that allow people to negotiate their way through
their everyday worlds. Culture defines what is normal and
what is not, what is important and what is not, what is acceptable and what is not, within each social context.
Culture is acquired through a lifelong process of socialization: Individuals never live in a social vacuum, but are
socially produced from cradle to grave.
The socialization of the individual and the reproduction of society and place are two sides of the same coin, that
is, the macrostructures of social relations are interlaced with
the microstructures of everyday life. People reproduce the
world, largely unintentionally, in their everyday lives, and in
turn, the world reproduces them through socialization. In
forming their biographies every day, people reproduce and
transform their social worlds primarily without meaning to
do so; individuals are both produced by, and producers of,
history and geography. Everyday thought and behavior
hence do not simply mirror the world, they constitute it.
Such a view asserts that cultures are always intertwined with
political relations and are continually contested, that is,
dominant representations and explanations that reflect
prevailing class, gender, and ethnic powers are often challenged by marginalized discourses from the social periphery. This theme is useful in appreciating how the “economy”
is not sealed off from other domains of social action; culture
enters deeply into economic and political behavior. For example, the ideology of nationalism was vital to the historical
emergence of the nation-state. Many industries that rely on
face-to-face interaction, such as investment banking, are
heavily conditioned by cultural norms of trust and behavior.
Ethnicity and gender roles are critical to knowing how
many economies operate.
5. Social relations are a necessary starting point
to understanding societies and geographies. Social
relations, of course, are only one of several ways with
which to view the world; other perspectives begin and end
with individual actors. However, to those who view societies as structured networks of power relations and not just
the sum of individual actions, the analysis of social relations is indispensable. Social relations, studied through the
conceptual lens of political economy, include the uneven
distributions of power along the lines of class, gender, ethnicity, and place. A focus on power brings to the fore the
role that class plays in determining “who gets what, when,
where, and why,” that is, the ways in which social
4
The World Economy: Geography, Business, Development
resources are distributed, as a central institution in shaping
labor and housing markets, as a defining characteristic of
everyday life, and as one of the fundamental dimensions of
political struggle.
Political economy’s dissection of the labor process,
and the value-added chains that bring goods and services
into our daily lives, allows for a penetration of what Marx
called the “fetishization of commodities,” the fact that they
hide the social relations that go into their making. Given
the importance of consumption in contemporary societies, such a perspective allows even the most ordinary of
objects (e.g., a can of Coke) to become a vehicle for the
illustration of social and spatial relations that stretch out
across the globe. Further, the emphasis on social relations
allows for an understanding of capitalism as one of many
possible types of society, of the specific characteristics of
capitalist society, and of the rich insights to be gained
from recent investigations into its structural and spatial
dynamics, including the periodic restructuring of regions,
uneven development, the ways new technologies are incorporated into social systems, boom-and-bust cycles, the
service economy, and so forth.
Similarly, feminists have shown how social and geographic reality is pervasively gendered, that is, how gender
relations are intimately woven into existing allocations of
resources and modes of thought in ways that generally perpetuate patriarchy. To ignore gender is to assume that
men’s lives are “the norm,” that there is no fundamental difference in the ways in which men and women experience
and are constrained by social relations. A wealth of feminist
scholarship on everything from employment to housing to
the family has made this view an essential part of economic geography. Thus, spatial patterns of work and daily life
are constructed around gender relations, including spatial
differences between men and women in housing, work,
and commuting patterns; how such relations typically favor
men and disadvantage women; as well as how genderbased meanings saturate particular places.
MODES OF THEORIZING IN
ECONOMIC GEOGRAPHY
Different generations of economic geographers have
sought to explain local and global economic landscapes in
different ways at different moments in time. In short, economic geography is an evolving discipline whose ideas are
in constant flux. There is no “one” economic geography;
there is only a large array of different economic geographies from which to choose. Three principal schools of
thought that have long played key roles in this subdiscipline are examined here: location theory, political economy, and poststructuralism.
Location Theory
In the 1950s and 1960s, the introduction of computers and
statistical techniques provided a framework for analyzing
location decisions of firms and individuals and spatial struc-
tures (e.g., land-use patterns, industrial location, settlement
distributions). This approach is called logical positivism,
which emphasizes the scientific method in the analysis of
economic landscapes, including the formulation of hypotheses, mathematical analysis, and predictive models.
An important part of this perspective, location theory,
attempts to explain and predict geographic decisions that
result from aggregates of individual decisions, such as those
that underlie the locations of companies and households.
Many location theorists modeled spatial integration and
spatial interaction, the linking of points through transport
networks and the corresponding flows of people, goods,
and information, including commuting and migration fields
and shopping patterns. Others sought to uncover the location of the elements of distribution with respect to each
other, such as the hierarchy of cities. Spatial structures limit,
channel, or control spatial processes; because they are the
result of huge amounts of cumulative investment over years
and even centuries, large alterations to the spatial structures
of towns, regions, or countries are difficult to make, and
thus change slowly. Spatial structure and social process are
circularly causal: Structure is a determinant of process, and
process is a determinant of structure. For example, the existing distribution of regional shopping centers in a city will
influence the success of any new regional shopping center
in the area.
Location theorists developed and applied a variety of
models to understand economic and demographic phenomena such as urban spatial structure, the location of
firms, influences of transportation costs, technological
change, migration, and the optimal location of public and
private facilities such as shopping centers, fire stations, or
medical facilities. Models distill the essence of the world,
revealing causal properties via simplification. A good
model is simple enough to be understood by its users, representative enough to be used in a wide variety of circumstances, and complex enough to capture the essence of the
phenomenon under investigation. Typically, models were
developed, tested, and applied using quantitative methods.
All models are simplifications of the world based on
assumptions, and location theory tended to assume a
world of pure competition in which entrepreneurs are
completely rational and attempt to maximize profits with
perfect knowledge of the cost characteristics of all locations. This image of an entrepreneur became known as
Homo economicus (“economic person”), an omniscient,
rational individual who is driven by a single goal—to
maximize utility (or happiness, for consumers) or profits
(for producers). Essentially, location theory reduced geography to a form of geometry, a view in which spatiality is
manifested as surfaces, nodes, networks, hierarchies, and
diffusion processes.
Critics of spatial analysis note that this approach emphasizes form at the expense of process and tends to portray geographies as frozen and unchanging. The positivist
approach is silent about historical context and politics,
class, gender, ethnicity, struggle, power, and conflict, all of
which are absolutely central to how the world works. By
Chapter 1 • Economic Geography: An Introduction
not taking history seriously, this approach fails to explore
the origins of contemporary processes and patterns in the
past. Location theory tends to represent people as simply
points on a map, abstracting them from their social worlds,
as if they did not think and feel about their surroundings.
Critics questioned the relevance of overly abstract mathematical models based on questionable assumptions that
failed to capture the richness of political and social life.
Behavioral geographers challenged the simplistic view
of behavior as represented by Homo economicus and
pointed to the complex ways in which spatial information
is acquired perceptually and interpreted cognitively in a
world of imperfect information. Others noted that location
theory tends to reflect the status quo and is incapable of
providing a comprehensive explanation of how geographies are tied to social, not simply individual, behavior.
Location theory tends to have an inadequate understanding of inequality and how it is produced and reproduced.
Political Economy
Political economy is a way of viewing societies and geographies as integrated totalities, that is, as unified wholes with
a structure that exceeds the sum of individual behaviors. In
this view, social relations cannot be reduced to individual
actions. As the term implies, this school includes both the
political and economic realms and refuses to separate them:
Economies are thoroughly political entities, and politics and
power are inseparable from economics in many forms.
Political economy is further closely related to the field of
institutional economics, which analyzes the importance of
formal and informal rules of behavior for economic outcomes,
for instance, norms of trust and cooperation, private property rights, courts, parliamentary systems, and constitutions.
Political economy is focused on the interactions between
political agents; their institutional frameworks; the structure
of class, power, and inequality; and social and economic
constraints to individual behavior.
Because political economy embraces an enormous set
of topics, it is useful to decompose the term into its constituent parts. Broadly speaking, economics may be defined as the study of the allocation of resources, including
the production, distribution, and consumption of goods
and services. More bluntly, it is the analysis of “who gets
what, when, where, and why.” Some people, lacking historical depth, erroneously assume that economy is synonymous with market, that is, that supply and demand and
profit-maximizing behavior are universal phenomena
throughout all space and time. A historically sensitive perspective, however, reveals that markets are only one possible way in which economic systems are organized, and
fairly recent ones at that, emerging as the world’s predominant mode of production only in the sixteenth century.
Hunting and gathering, slavery, feudalism, and socialism
are other, albeit largely extinct, forms.
The other component of political economy is politics,
which may be loosely defined as the struggle for power.
Power is a fundamental characteristic of all societies and,
5
of course, takes many forms, including violence, personal
charisma, status, the capacity to withhold favors, control
over information, bureaucratic rank, the self-policing of
ideology, the role of the state, and so on. Any time two or
more individuals are gathered together, power relations
exist in one form or another. One of the strengths of political economy is how it shows the multiple ways in which
politics and economics are deeply interconnected, that is,
as two indivisible sides of the same coin.
Political economists, many of whom were influenced
by Marxism, charged that traditional theories of spatial organization obscure more than they reveal. In their view,
location theories are narrowly conceived and blind to historical process—thus they are designed primarily to serve
the goals of those who wield power. This approach maintains that a focus on the political organization of society
and space—the ways in which power is organized and exerted to control resources—is fundamental to understanding space. Power is a fundamental part of how any social
system is organized, and the economy and politics cannot
be divorced, for power and wealth are always closely
linked. Power is always unequally distributed among and
within societies, and for political economists, therefore, social and spatial inequalities figure front and center in their
analysis. Any understanding of economic geography, of
who is relatively rich and powerful and who is poor and
holds less power, must therefore invoke some notion of
economic class, as well as gender, ethnicity, and other
types of social relations. Political economists argued that
the positivist views of human behavior were seriously undersocialized; that is, they ignored the social context in
which people live and which deeply shapes what and
how they think.
In contrast, political economy maintains that social
relations cannot be reduced to individual behavior, that
societies are more than the sum of their parts. Political
economists dismiss the notion of the “free market” as a
myth with little basis in reality; instead, there is capitalism,
which is simultaneously economic, political, cultural, and
spatial. As we shall see, government intervention is a
hugely important part of how economic landscapes are
created, unrealistic notions of the “free market” notwithstanding. Capitalist societies are defined by a particular
configuration of economic relations centered on profit and
accumulation, which arose in the sixteenth and seventeenth centuries, gradually coming to take over most of the
world and uniting it today in a single, global division of
labor. Thus, to understand economic landscapes we must
understand their historical development, the class structure
of a society, its relations of gender and ethnicity, and how
these are tied to culture and ideology.
For political economists, economic landscapes are the
products of changing social relations of power and wealth
that organize space in a broad array of historically distinctive forms. To understand the developing world, for example, political economists maintained that one must examine
the long history of colonialism, the dynamics of the contemporary world that perpetuate poverty and injustice, the
6
The World Economy: Geography, Business, Development
behavior of transnational corporations (TNCs), and government policies. As more economic geographers delved into
political economy, it gradually became the primary mode
of analysis, an important distinction between the contemporary disciplines of geography and economics.
Poststructuralist Economic Geography
More recently, poststructuralists in geography and other
disciplines have initiated yet another change in how we
view the economy and economic landscapes. This perspective includes a wide diversity of views, but essentially
poststructuralists maintain that the dynamics of capitalism
cannot be understood independently of the modes of
thought used to conceive, represent, and understand them.
Capitalism thus does not simply exist outside of people’s
minds, but also inside of them. Thus, capitalism is as much
“cultural” as it is “economic” and “political,” and these distinctions are arbitrary; there is no reason to privilege economic relations over cultural ones. Rather, how we know
the world shapes how we behave: Social discourses (e.g.,
maps, the news, popular conceptions) don’t just reflect reality, but enter into its making. Poststructuralists thus put great
emphasis on the nature of language and representation, on
symbolic signification. This view tends to emphasize the
complexity and randomness of social and spatial behavior.
Rather than view a society and geography as a neatly organized totality, poststructuralists argued that there are instead
multiple, overlapping networks of people and activities that
cannot be neatly captured by a single worldview, and that
we should accept the inherent complexity and messiness of
the world we try to understand.
Poststructuralists initiated a “cultural turn” in geography that holds that the economy must be embedded within culture (i.e., that economic relations are always ones
among people, emphasizing the role of signs and language in the production process). This view opened up
areas for study that had long been ignored, such as geographies of consumption. In this view, there is no single,
objective view of the world, only multiple, partial perspectives, each of which is tied to different power interests.
The dominant views that naturalize the world thus tend to
be those of the powerful, although there is always room
to challenge them.
Economic geography has thus been characterized by
major changes in thinking, and today several schools of
thought coexist, often with heated debates among them.
While the subdiscipline retains its long-standing interest in
location theory and quantitative modeling, it has also
steadily reduced the boundaries between analyses of the
economic and the political, between economy and culture,
between society and nature. Such bifurcations often distort
more than they clarify, and economic geography today
borrows freely from many points of view. Students of economic geography can learn from all of these perspectives
and combine them in creative ways.
Because the reality of the world is inevitably understood from and through a particular worldview, it is essen-
tial that we are aware of different theoretical systems, their
assumptions, strengths, limitations, and conclusions. For
this reason, this text uses a comparative approach in
which different perspectives are explained and contrasted.
Looking at the world through different ideological lenses
better enables us to meet the challenge of world development problems. The way in which a society answers the
central questions of economic geography depends on its
historical context, class and gender relations, the role of
the state, its position in the world system, and cultures and
ideologies.
CAPITALISM
Capitalism is the economic, social, political, and geographic system characterized by the private ownership of
the economic means of production (the resources, inputs,
tools, and capital necessary to produce goods and services). Because capitalism dominates the world today, its origins, structure, and changes are a central theme of this
book: In many ways, economic geography today is the
study of capitalist landscapes in various ways. Capitalism
arose in Western Europe in the late fifteenth and sixteenth
centuries, and, in the form of colonialism, ultimately came
to be spread over most of the contemporary world
(Chapter 2).
The fundamental (but not the only) institution involved in the organization of factors of production in
capitalist economies is the market, by which buyers and
sellers interact through supply and demand on the basis
of price. The guiding imperative in capitalist economies
is profit, the difference between revenues a firm receives and its production costs. Profit dictates how capitalists behave as a class and how the market operates,
and usually pushes other concerns aside. Only profitable
products will be produced, based on market demand
and price. Prices reflect the utility and value of goods,
based on consumers maximizing their own interests, although demand is created through advertising. How and
where goods are produced is based on labor and technology efficiency and the spatial distribution of production costs. In competitive market economies, the most
efficient producers are the survivors; their production
processes and locations will dictate how and where
goods will be produced.
Capitalism features two major groups of decision
makers—private households (and individuals) and businesses or corporations. The mechanisms that operate to
bring households and businesses together are the resource
market and the product market, which refer to the
supply and demand for the inputs and outputs of the production process, respectively (Figure 1.1). Thus, resource
markets organize capital, land, and labor to produce
goods and services; product markets consist of buyers and
sellers of those outputs. These markets are tied together
through flows of capital (between businesses and resource
markets), labor and wages (between households and resource markets), consumption expenditures for goods and
Chapter 1 • Economic Geography: An Introduction
7
FIGURE 1.1 Circular flows in the capitalist
economy. The circular flow in the capitalist
economy involves a resource market where
households supply resources to businesses and
where businesses provide money income to
households. It also consists of the product market
where businesses manufacture and produce
goods and services for households, while
households provide money revenue from their
wages and income to consume such goods and
services. In the resource market, shown in the
upper half of the diagram, households are on the
supply side and businesses are on the demand
side. The bottom half of the diagram shows the
product market; households are on the demand
side and businesses are on the supply side.
services (between product markets and households)
(Figure 1.2), and sales revenues and profits (between
product markets and businesses).
By adding the value of all the goods and services produced in a given country in one year, we can estimate its
gross domestic product (GDP). (A similar measure, gross
national product, GNP, includes the value of the activities
of domestic companies in countries outside their borders.)
Dividing each country’s GDP by its population yields per
capita GDP, a frequently used yardstick of quality of life
(Figure 1.3). It is important to remember that maps and
tables of abstract numbers reflect real-world conditions in
which people live, work (Figure 1.4), find meaning and
happiness, often suffer, and die. The United States, with a
GDP of roughly $14 trillion, is the world’s largest economy
(Figure 1.5), followed by China and Japan. As economies
grow and decline, the relative sizes of their GDPs change
over time. However, although it has waxed and waned
FIGURE 1.2 Systems of advanced commodity
production offer consumers an enormous
variety of goods and services from which to
choose. However, sales in America are weak,
with the economic slowdown. Millions of
workers are unemployed, and others have cut
spending in order to reduce consumer debt,
further slowing the economy. The result has
been a persistent combination of weak
demand and slowing supply.
8
The World Economy: Geography, Business, Development
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PACIFIC
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MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 1.3 Gross domestic product (GDP) per capita—the total of the value of a country’s output divided by its
population—is the most commonly used measure of wealth and poverty in the world economy, and varies considerably
around the world.
over time, the share of total world output produced by the
United States, which has about 5% of the world’s people,
today stands at roughly 25% (Figure 1.6).
The popular understanding of capitalism holds that it
consists just of markets. A commonly held view of capitalism is that it is synonymous with free markets and minimal
governmental intervention, a system sometimes called
laissez-faire. However, historically, truly free markets
(with zero government rules) have never really existed;
since there has been capitalism there has been a government of some form or another to shape markets.
Governments have always been central to creating infrastructure, protecting property rights, providing public
services such as education, and shielding producers from
foreign competition, including immigrant labor. Indeed,
the argument can be made that markets could not exist
without some state role. This means that the various forms
of capitalism are mixed systems in which both markets
Major World GDPs in 2010
16
14
GDP ($ trillions)
12
10
8
6
4
Sp
ai
n
ia
In
di
a
ss
Ru
ad
a
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n
il
.
.K
az
Br
U
an
y
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an
ce
an
er
m
G
Ja
p
.
.S
U
FIGURE 1.4 Egyptian farmer tilling the soil. This field is being
prepared for growing cotton, to meet a worldwide demand for
cotton clothing. In the future, the poorer countries of the world
will have to rely on agriculture to raise their standards of living and
to supply the capital they need to create industries. Agricultural
production, therefore, must be increased. Some developing
countries, such as Egypt, grow a disproportionate amount of
nonfood crops for the export revenue it generates.
Ch
in
0
a
2
FIGURE 1.5 Major world GDPs in 2010. The United States, which
generated roughly $14 trillion in output in 2010, is by far the
world’s largest economy and exerts a disproportionate influence
over the rest of the world. China, the world’s second largest, is
rapidly growing, however. Japan and several European states form
an important third tier.
Chapter 1 • Economic Geography: An Introduction
FIGURE 1.6 The United States, with 5% of the planet’s
population, has generated between one-fourth and
one-third of global output over time. The large share of
the planet’s output (and consumption) attributable to the
United States reflects its abundant resources, high rates
of productivity, and political leverage within the world
system. Because of globalization and good policies, almost
all developing countries are starting to catch up with their
rich neighbors. In 2002–2010 more than 85% of developing
countries grew faster than the United States, compared
with less than a third between 1960 and 2000, and none
the century before that.
U.S. Share of World GDP
1980–2008
34
32
Percent (%)
9
30
28
26
24
22
1980
1985
1990
1995
2000
2005
and governments are important decision makers, including
in such vital domains as transportation, education, and
health care. The balance of power between markets and
governments varies widely among countries and over
time, and gives rise to many national forms of capitalism,
ranging from those with high levels of government intervention, such as in Scandinavia, to those with relatively
little, such as in the United States.
ECONOMIC GEOGRAPHY
OF THE WORLD ECONOMY
The focus of this book is the world economy, the networks, processes, and institutions that shape the planetary
system of resource distribution, create wealth and poverty
in different parts of the globe, and contribute to the rise
and fall of different national powers. The global scale is
only one way in which economic geography can be studied, but given the massive processes of globalization that
have been at work, particularly over the last 30 years, it is
highly appropriate for understanding what goes on around
the world around you. The world economy links far-flung
people and places so that what happens in one place
shapes what happens in another through networks of interdependence. For example, it is highly probable that the
clothes you are wearing now were made in a developing
country such as China; that the gas you put in your car
came from a foreign source such as Nigeria; that your cell
phone or television was made in Southeast Asia; and that
financial decisions being made in London or New York
City shape your access to credit and the interest rates you
pay for loans, mortgages, and credit cards. Every trip to
the grocery store is a window on the global economy and
an act of participation in it. Seen in this light, the global
economy and everyday life are two sides of the same coin.
The world economy is constantly being transformed
by a combination of technological and geopolitical forces,
which in turn generate a globalization of culture, of the
economy, and of environmental issues. Around the world,
countries have witnessed the steady growth of large pri-
vate corporations, the rising role of markets and a diminished role for the state, and lower barriers to trade.
Technological changes—improvements in transportation
and communications—are reducing the friction of distance
and barriers to worldwide exchange. The principal instruments of the globalization of culture are worldwide
television, music, and consumption patterns. The principal
instruments of globalization of the economy are TNCs,
which are producing new efficiencies and new geographies in production, distribution, and the use of the
world’s resources. The collapse of communism around the
world in the 1990s, the implementation of trade alliances
such as NAFTA and the European Union, the explosion of
banking and finance via telecommunications systems, the
rising power of corporations domestically and internationally, and the worldwide reduction of government roles
via privatization and deregulation all marked a new round
of globalization by removing many institutional barriers
to investment and trade. This increased pace of globalization has enormous implications for countries, states, and
regions.
Changes in the world economy are simultaneously
cultural, technological, political, and environmental.
Reductions in transportation costs, for example, have improved exchanges of people and goods. Advancements in
telecommunications, including fiber-optic networks and
the Internet, have rapidly increased the ease, speed, quantity, and quality of information transactions. Worldwide
political-economic changes, ranging from the collapse of
communism to widespread deregulation to the declining
power of the United States internationally, have diminished the role of the state and increased the power of corporations, often with dire consequences for the poor and
powerless. Rising populations in the developing world,
and stagnant demographic growth in the developed world,
have altered the global supply, demand, and cost of labor,
shaping migration patterns. Globalization has accelerated
international economic, political, and cultural ties, ranging
from corporate investment to trade, to tourism, to terrorism,
to the spread of disease. And cultural changes, including the
10
The World Economy: Geography, Business, Development
commodification and Westernization of the world’s many
cultures, simultaneous secularization and growing religious fundamentalism in different places, and mounting
awareness of international issues, have played a role in reshaping local and global social movements, consumption,
and civil society.
Because transportation and communication costs have
fallen rapidly, many local services and goods are becoming available internationally. Worldwide communication
systems now allow for companies to subcontract their production and financial operations across continents, wherever
prices are the cheapest and quality is the best. The global
economy today is spectacularly information-intensive and
relies heavily on digital technologies, corporate consultancies, cable television, Internet information services, and
software systems design, programming, and application.
International finance has also become both global and
computerized, and capital markets are now highly mobile
for all forms of marketable equities and securities, stocks,
bonds, and currency transactions. The globalization of
finance has been accelerated by financial deregulation—
the removal of state controls over interest rates, tariffs,
barriers to banking, and other financial services.
The world is full of problems—debt, unemployment,
poverty, inadequate access to health care, food shortages,
and environmental degradation—that have serious consequences for the lives of every person on the planet, including
you. Such problems are rooted in the structure and development of the world economic system. Understanding the
reasons for such problems begins by recognizing the long
domination of the world system by developed countries
and the existence of an international economic order
established as a framework for an international economic
system.
The international economic system, or world
economy, includes the institutions and relations of global
capitalism, such as global flows of capital (investment),
goods (international trade), information, technology, and
labor. Because international markets and flows of resources, capital, labor, and products are always shaped by
politically sovereign states, the international economic
system is also a political system.
The capitalist world economy is a multistate economic
system that began in Western Europe in the early sixteenth
century and grew over the next 400 years. As this system
expanded, it developed into a configuration of a core of
wealthy countries dominating a periphery of other countries. One common division of countries is into First,
Second, and Third Worlds, a categorization that was a
product of the politics of the Cold War. The First World
includes the economically developed countries of Europe,
the United States, and Canada, Australia, New Zealand,
and Japan (Figure 1.7). The defining feature of these countries, which comprise about one-quarter of humanity, is
their relatively high standard of living, characterized by a
large middle class. The Second World was represented by
the Soviet Union and Eastern Europe, a designation that
lost its meaning in the post–Cold War era (the 1990s and
since), when the Second World disappeared, to be divided
between the First and Third. Important to understanding
this division are differential rates of economic growth,
which vary over time and space. Generally, the world’s
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MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 1.7 Major world regions can be divided into the First and Third Worlds, also called the global North and South. The
former Second World, which consisted of the Soviet Union and its client states, expired with the collapse of communism in
the 1990s and has been divided between the two. The First World, or global North, includes the developed states in Europe, Russia,
Japan, and North America, as well as Australia and New Zealand. The Third World, or global South, includes everyone else,
the relatively less developed countries in Latin America, Africa, the Muslim world, South Asia, East Asia, and Southeast Asia.
Chapter 1 • Economic Geography: An Introduction
economies collectively grow between 3% and 5% annually
(Figure 1.8). When a country’s economy grows more
rapidly than does its population, the average standard of
living is likely to rise, although this depends heavily on
how wealth is distributed by class, ethnicity, gender, and
region; growth in which new wealth is accumulated at the
top does little for the bulk of people. Conversely, when
population growth exceeds that of the economy, the average standard of living is likely to decline, although there are
other drivers of falling social mobility such as economic
crises.
The poorest and generally weakest countries are in the
underdeveloped Third World, sometimes also called
developing or, a bit more accurately, less developed countries. The Third World consists of Latin America, Africa, the
Middle East, and Asia, a broad set of diverse societies with
a great range of cultures, historical backgrounds, and standards of living. A few countries have climbed out of the
Third World, such as Singapore and South Korea, to enjoy
standards of living that rival those in the First World.
Whether Russia should be considered a First or Third World
country is open to debate; its GNP per capita, after all, is
lower than that of Mexico. Some observers even identify a
Fourth World as a subset of the Third World, the poorest
countries on earth (located mostly in sub-Saharan Africa).
At any given time, the world economy is dominated
by one or more core states. In the nineteenth century, the
era of the Pax Britannica, or period of peace dominated
by the British Empire, Britain was the world’s only economic and political superpower. The British navy ruled
every ocean in the world, and the sun never set on the
British Empire. By 1900, however, the United States over-
took Britain as the world’s largest national economy, and
after World War II the United States displaced Britain as the
world’s leading superpower, a status it still enjoys today,
even if its dominance is gradually eroding in the face of
mounting competition. The United States is still unquestionably the largest economy in the world, although its
standard of living is not the highest (falling below several
countries in northern Europe). It used its wealth and
power to mold the international economy to reflect its interests and those of its allies, setting up, for example, the
World Bank, the International Monetary Fund (IMF), and
the World Trade Organization (WTO). As the hegemonic
power in the world, the United States created institutions
that were required to establish international economic
order in tune with its ideals of free trade and investment
(although critics allege that “free trade” is a smokescreen
for powerful countries to economically invade less powerful ones).
By the 1970s, the relative power of the United States
began to decline in the face of intense competition from
rival core states such as Japan and Germany. By the late
1970s, the world order created by the United States after
World War II began to come to an end. One major factor in
generating this change was the Organization of the
Petroleum Exporting Countries (OPEC)–induced petroleum crises of 1973 and 1979, which dramatically increased
the price of a critical input into industrialized economies
and plunged them into recession. The “petro-shocks” dealt
a significant blow to the world economy, driving up heating and transportation costs, exacerbating unemployment,
accelerating deindustrialization, and curtailing many people’s standards of living, essentially ending the post–WWII
World Economic Growth 1988-2008
5.5
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11
1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008
Year
FIGURE 1.8 Average annual world economic growth rates vary as business cycles create boom and bust periods,
but average between 3% and 5% annually. Fluctuations in average growth reflects international recessions, the
price of oil, productivity growth (including the impacts of new technologies), catastrophic events such as the
Indian Ocean tsunami, changes in government policies, and political turmoil or the lack thereof.
The World Economy: Geography, Business, Development
economic boom. A major reason for the breakdown of the
postwar world was a decline in the rate of profit of many
firms in the industrial West. Faced with intense global
competition, firms had to restructure themselves and make
organizational and technological changes as well as relocate parts of their operations to the developing world.
Some firms went out of business, but others responded to
the challenge to automate and to “go international,” something they could do in part due to the rising speed of travel
and new, digital information technologies.
Out of the old order came the birth of a new one in
the 1980s and 1990s. This new world system, in which the
Soviet bloc disappeared, left the United States as the
world’s only superpower. However, U.S. economic hegemony has been increasingly challenged by the rise of the
newly industrializing countries (NICs), particularly those in
East Asia and especially China. This global order is characterized by highly developed international markets dominated by TNCs, many of which have larger gross output
than some countries (Figure 1.9). States and national governments also play in the global system, managing trade
through protectionism, limiting movements of labor, or by
reducing trade barriers (e.g., through the World Trade
Organization). Like most economies around the world, the
American economy has become progressively more globalized, partly as a result of the influx of foreign investment
from a variety of nations, mostly in Europe, and from
Canada, China, and Japan. Simultaneously, the microelectronics revolution unleashed an enormous wave of change
that dramatically affected all domains of production and
consumption, particularly in telecommunications and
finance, accelerating the globalization of services as well
as manufacturing.
GLOBALIZATION
Globalization refers to a complex set of worldwide
processes that make the world economy and the various
societies that comprise it more integrated and more interdependent. Globalization is essentially an expansion in the
scope, scale, and velocity of international transactions. It is
a useful way to explain the movements of capital, people,
goods, and ideas within and among various regions of the
world and their cultural, political, and environmental systems. Among other things, globalization is a process that
shrinks the world by reducing transport and communication times and costs among different places. This process
has exposed different people in the world to an increasingly homogeneous global culture (largely American in origin), a global market in which more goods and services are
freely available everywhere than ever before, and global
environmental changes on a scale never before seen.
Globalization should not be simply seen as inherently
beneficial or inherently negative in character. Rather, it is a
mixture of both sets of qualities that varies widely by
place. In some regions, social, political, and economic
problems have resulted from a tension between the
processes promoting global culture, economy, and environment on the one hand, and the practice and preservation of local economic isolation, cultural tradition, and the
localization of environmental problems on the other hand.
We now take a brief look at some of the most important dimensions of globalization that are occurring at an
ever-increasing rate in the world today: globalization of
culture and consumption, telecommunications, and economic activity, including TNCs, foreign investment, work,
services, and information technology.
400
Transnational corporation (TNC)
320
Country
280
240
200
New Zealand
Morocco
ConocoPhillips
Ford Motor
General Electric
General Motors
Israel
ING Group
Total
Toyota Motor
Denmark
Bangladesh
BP
Colombia
0
Sweden
40
Malaysia
80
Exxon Mobil
120
Royal Dutch Shell
160
Wal-Mart
GDP or total sales (U.S. billions)
360
Chevron
12
FIGURE 1.9 Many transnational corporations (TNCs) are larger than some national economies. The relative size of
a TNC is important to small countries whose economies are often drastically affected by decisions a global
corporation makes. Wal-Mart seems to be a microcosm of the U.S. economy in that shoppers are focusing on
savings in this age of austerity. With high gas prices and unemployment rates in America, Wal-Mart’s sales are
booming.
Chapter 1 • Economic Geography: An Introduction
Globalization of Culture and Consumption
Culture is the total learned way of life of a society. Culture
can be defined as that body of beliefs, customs, traditions,
social forms, and material traits constituting a distinct social
tradition of a group of people. Cultural practices include religion, attitudes toward family size, as well as language,
which is the transmission of ideas through languages, symbols, and signs. Historically, different cultures were distinct
from one another, but contemporary capitalism has increasingly homogenized cultures around the planet, largely by
exporting American culture. Go to any shopping mall in
Brazil, South Africa, or Indonesia, and you are likely to
hear American music and see American movies, American
clothes, and American fast food. For example, large numbers of the world’s young people enjoy wearing blue jeans
and Nike shoes, consuming Coca-Cola and Pepsi, smoking
Marlboro cigarettes, eating McDonald’s hamburgers, listening to Lady Gaga, or watching American action movies.
(That these examples all involve purchases speaks volumes
about the commodification of culture under capitalism;
little American culture diffuses elsewhere that does not
involve buying.) Thus, for many people globalization is
essentially synonymous with Americanization, a fact that
often generates resentment against what they view as cultural imperialism. Students of globalization observe an increasingly homogenized global landscape of office towers,
stores, restaurants, and service stations. The recognizable
logos and visual appearance of retail chains do not vary
from one region to another, and customers recognize these
logos and building designs in whatever landscape or part
of the world they may find themselves. However, the penetration of global culture in different regions across the earth
is taking place at different rates; some societies have enthusiastically adopted Western culture, others have walled
themselves off from it, and in most countries one finds a
mix of many levels of adoption.
Telecommunications
The growth of a global digital telecommunications network
greatly enhances the globalization of culture. Because of
cable television and international news services, we know
a great deal about political and economic events happening anywhere in the world within a few hours. Far-away
places are less remote and more accessible now than they
were just 10 years ago. Through television, cell phones,
and the Internet, we can reach people who live far away,
interact with them, and receive pictures and messages from
around the world at the click of a mouse.
Citizens in developed countries take such telecommunication innovations as cell phones and cable television
for granted. But the entire world is being wired into global
networks of millions of personal machines interconnected
by fiber-optic and satellite links, which allows essentially
instantaneous communications with anyone on the Net.
That interchange can include mail, documents, books, pictures and photographs, voice and music, video and television images, and programs and film. The largest of these
13
networks, the Internet, includes over 1.6 billion people, or
one-fourth of the planet.
The spread of telecommunications is not ubiquitous
however, and it generates its own geographies. The world
contains significant handfuls of people who have never
seen television, used a phone, or ridden in a motor vehicle. Access to the communications of the information age
and modern transportation is restricted by an uneven division of wealth worldwide. Even within countries, access
may be restricted because of uneven distribution of wealth
or because of discrimination against a tribe, an ethnic
group, or women.
Globalization of the Economy
Companies, societies, and individuals that were once unaffected by events and economic activity elsewhere now
share a single economic world with other companies, societies, and workers. The fate of an aerospace worker in Los
Angeles is tied to political changes in Eastern Europe. The
job of an auto worker in Detroit is related to the value of
the Mexican peso and the auto industry’s investment in
production plants along the Mexican border. The globalization of the economy has meant that national and state
borders and differences between financial markets have
become much less important because of a number of
trends: (1) international finance; (2) the increasing importance of TNCs; (3) foreign direct investment from the core
regions of the world—North America, Western Europe,
and East Asia; (4) global specialization in the location of
production; (5) globalization of the tertiary sector of the
economy; (6) the globalization of office functions; and (7)
global tourism.
Globalization involves international financial flows. In
the deregulated, hypermobile, electronic world of international banking today, telecommunications has allowed a
single global capital market. Computers allow traders to
monitor and trade instantaneously in national currencies,
stocks, bonds, and futures listed anywhere in the world.
Banks, financial houses, and corporations can operate
worldwide partly because of the decision centers that control the global economy. Consequently, banks and corporations can react immediately to changes in the value of
commodities or gold on the world market and the rate of
exchange between the dollar and the euro, the Japanese
yen, the Chinese yuan, and other currencies.
Transnational Corporations
The globalization of the economy has been spearheaded
by transnational corporations (TNCs), sometimes referred to as multinational enterprises (MNEs). A TNC may
conduct research, operate industries, and sell products in
many countries, not just where its headquarters are based.
Most TNCs maintain their headquarters, offices, and factories in one of the three regions of the core countries—
North America (United States and Canada), Western
Europe (especially Germany, France, Italy, the United
Kingdom, and the Netherlands), and Japan. In 2000, TNCs
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The World Economy: Geography, Business, Development
employed 100 million people in the core regions, and 20
million elsewhere.
In 1970, the world’s 15 richest nations were host to
the headquarters of 7500 TNCs. However, by 2000 these
same countries hosted 25,000 TNCs. According to the
World Investment Report by the United Nations
Conference on Trade and Development, there are some
53,000 TNCs in the world today, controlling about 40% of
all private-sector assets and accounting for a third of the
goods produced for the world’s market economies. They
employ 100 million people directly, which is 4% of the
employment in developed regions and 12% in developing
regions. In some countries, TNCs are responsible for extremely high proportions of total domestic production—
the mining, manufacturing, and petroleum sectors of the
Canadian economy, for example. TNCs also play a disproportionately dominant role in other developed countries,
such as Belgium, France, the Netherlands, Italy, Britain,
and Japan. Sales of goods and services by very large TNCs
exceed $100 billion annually, and the sales of the largest
TNCs are larger than most countries’ total economies,
making the decisions of a global corporation important to
a small country’s economy. Today, TNCs control more
than half of all international trade simply via intracorporate transfers of components, services, investments, profits, and managerial talent among their scattered plants and
offices in various countries. Most of this intrafirm trade is
not finished products and services, but components, subassemblies, parts, and semifinished products.
Thus TNCs, not countries, are the primary agents of
international trade, largely between and within their organizations. In effect, TNCs change countries’ reserves of
resources by moving human and physical capital and technology from one part of the world to the other, creating a
new asset base, and allowing production and manufacturing to occur in outsourced locations where they may not
have happened otherwise. A TNC will operate in a country
where a set of characteristics taken together is more attractive: location, resource endowments, size and nature of
market, and political environment. Further, the TNC is able
to use transfer pricing, the practice of setting prices for
goods and services provided by subsidiaries so as to transfer taxable profits to countries that have the lowest corporate tax rates.
TNCs are able to compete on a world scale due to their
transnational communications ability that allows them to
share information, via the Internet and satellite and fiberoptic communication systems, with their subsidiaries and
branches throughout the world. This is a tremendous advantage in that all components of the TNC can stay aware of
markets, products, labor, and business opportunities. TNCs
also have the advantages of large stores of capital, technological and managerial skill, and overall economies of scale.
Foreign direct investment (FDI) refers to investment by foreigners in factories that are operated by the
foreign owners of a TNC. TNCs in the United States are
most likely to invest in Europe, Canada, and Latin
America. Western European TNCs are most likely to invest
in eastern European, Russian, and African markets, as well
as in North America. Japanese transnationals are most likely to invest in Asia and in North America.
Since the 1980s, governments in the three core regions where TNCs are based—North America, Europe,
and East Asia—have made changes to accommodate international corporate capital, altering tax codes and regulations that formerly hindered transnational operations.
Other countries where TNCs wish to invest, especially
developing countries, have also modified their laws,
taxes, and regulations to encourage transnational operations within their borders. These accommodations, often
labeled “neoliberalism,” have changed the relationships
between countries and corporations, favoring the latter
over the former.
Globalization of Investment
The direction of the world economy is centered in the core
regions—North America, Western Europe, and Japan—as
well as the Pacific Rim. From the three major world cities,
or command centers, in New York, London, and Tokyo, orders are sent instantaneously to factory shops and research
centers around the world because manufacturing production and assembly lines and lower-cost offices have been
located outside the high-cost core countries. For example,
most U.S. sportswear companies, which are centered in
New York City and Los Angeles, have moved their production to Asian countries. Latin America, Africa, and Asia contain three-fourths of the world population and almost all of
its population growth. These countries find themselves on
the periphery of the world economy, suffering a sustained
lack of foreign investment; this pattern is the result of
centuries of colonialism and a world system in which the
rules often work against them.
Three trends are apparent in foreign direct investment (FDI) in developing countries. First, the proportion
of FDI that core countries are allocating to periphery
countries is declining. Core countries increasingly invest
in one another. Second, FDI is becoming more geographically selective. Countries that attract the greatest FDI
from the core countries are those that have chosen the
export-led strategy of economic growth. Countries welcome foreign investment in order to build factories that
will manufacture goods for international markets and employ local labor. Export-led policies rely on global capital
markets to facilitate international investment and global
marketing networks to distribute the products. The countries that have grown the fastest in recent decades have
generally followed the export-led approach as opposed
to the alternate approach, import substitution.
Locational Specialization
In the global economy, every location plays a distinctive
role based on its particular combinations of assets and
weaknesses that have evolved over time, and TNCs assess
the economic and locational assets of each place. The
original factors of production in global development—
Chapter 1 • Economic Geography: An Introduction
population and resources—are declining in importance
and being replaced by specialization. Today, brain power
has largely replaced muscle power as the primary source
of wealth in the world and transmaterialization (substitutability among inputs) has changed the nature of resources. Input factors and components move intrafirm,
final goods are fabricated close to the point of consumption, and national boundaries count much less than they
did in the global economy of the past.
In the new global economy, TNCs maintain a competitive edge by correctly identifying optimum geographic
factors and locations for each of its activities, including engineering systems, raw material extraction, production,
storage, office functions, marketing, and management.
Suitable places for each activity may be clustered in one
country or may be disbursed in countries around the
world. The resulting globalization of the economy has increased economic differences among have and have-not
places in the world. Factories are closed in some locations
and reopened in other countries. Some countries become
centers of technical research, whereas low-skilled manual
tasks are concentrated in others. Changes in the geography of production have created a spatial division of labor
in which regions specialize in particular functions. TNCs
decide where to locate in response to the characteristics of
the local labor force, its skill level, the prevailing wage,
and attitudes toward unions, tariffs, and transportation
rates. A TNC may close factories in regions with high wage
rates and strong labor unions.
Globalization of Services
The globalization of services and consumption also plays
an important economic role. For example, U.S. business
service exports generate one-third of the nation’s foreign
revenues, dwarfing auto exports. Business services are essential inputs to TNCs as they expand into the world arena.
This international sector includes legal counsel, business
consulting, accounting, marketing, sales, advertising, billing,
and computer services. Many professionals—architects,
software designers, business consultants—market their
skills throughout the world. The sector also includes
tourism, education of foreign students, and entertainment—
TV, music recordings, and movies. By 2000, 60% of the gross
revenues of the five largest U.S. motion picture studios came
from outside the United States. As with manufacturing, the
globalization of services operates in a world of a declining
role for the nation-state but a continuing emphasis on cultural differences at both the national and regional levels.
The influence of the United States is reflected in the
global transmission of television shows as intercontinental
information networks allow international subscribers access
to huge amounts of American culture, its most powerful
export. But this will have both positive and negative effects
on the culture and the disposition of the world’s peoples.
It is likely to broaden the common links among the
younger generations of the developed world, especially
those who are savvy about the Internet and the World
15
Wide Web. At the same time, it threatens to alienate the
more conservative elements in those cultures, many of
whom have turned to religious fundamentalism.
Globalization of Tourism
Tourism is one the world’s fastest-growing industries,
employing 230 million people in the year 2009 and contributing about 12% of the world’s gross domestic product.
The tourism industry is already one of the leading export
sectors and is expected to grow at an annual rate of 3%
worldwide. The highest rate of growth will take place in
some developing countries, especially tropical regions and
areas with picturesque scenery and those that provide both
natural and cultural attractions for their visitors, along with
pleasant climates, good beaches, and attractive social and
political milieus. Political stability is critical to this industry.
Information Technology and Globalization
Improvements in communication mean that globalization of
the world economy is moving forward rapidly, to a point
where many people in any location can receive and send
information to others elsewhere at almost any time.
Increasingly, the world economy depends on moving information instead of people. This export and import not of
products but information will allow innovations to sweep
the world at a rapid rate and will exacerbate and increase
the disparity between the have and have-not nations. In the
future, the designation of “fast” and “slow” societies will
refer to the effect that information technology has on the
tempo of human affairs. The information-based economy
means that the relative success of individuals or groups is
based on access to information, more than on money or
products and more than on natural resources, labor pools,
and other traditional metrics of power and wealth. A global
information network will allow a knowledge worker in
the global economy to mine the databases and other knowledge bases of the world. The world will be interdependent
and the interchange of information among researchers via
information systems will be facilitated as never before.
Real-time information systems are those that make information available as it happens, or at least as soon as
software programs process it and make it available, so that
everyone can seek critical information by accessing a computer. This is one of the essential differences between the
world economy of the future and the world economy of
the past. With real-time information systems, more people
will make more decisions in a customized world economy
as people who interface with customers become part of a
self-managing business unit. Individuals, companies, and
TNCs need feedback about their decisions as soon as it
becomes available so that they can adapt faster and continuously to customers’ needs and thus compete more
effectively. Real-time information systems allow business
decisions to be made with the minimum of bureaucracy.
The communications and information technology (IT)
revolution has come about through the networking of
individual computers, which are linked to global networks
16
The World Economy: Geography, Business, Development
of personal computers and information databases. These
communication networks, which include the Internet,
allow instantaneous communication with anyone else on
the network. Communication can include photographs,
voice and music, videos, television images and programs,
films, documents, books, pictures, mail, and spreadsheets.
High-speed Internet connections allow users to shop online at tens of thousands of stores, make reservations at
hotels in almost any country in the world, buy airplane
tickets, monitor the weather and stock market, pay bills,
and read, comment on, and even contribute to newspapers, magazines, and encyclopedias.
GLOBALIZATION VERSUS LOCAL DIVERSITY
Globalization has affected different regions in different ways,
and therefore must be understood geographically. Generally,
it has damaged but not completely destroyed unique local
diversity. Many current political, social, and economic
problems arise from the tension between forces promoting
globalization of the culture and economy versus those
striving to preserve local cultural traditions and economic
self-sufficiency. The desire to retain traditional economies
and cultural preferences in the face of increasing globalization has led to political conflict, social chaos, and market
fragmentation in more traditional regions of the world.
Globalization and local diversity will coexist and
shape each other, a development some geographers call
“glocalization.” The hypothesis of uneven fragmentation—
the world economy produces different results in different
places—accommodates continuing antagonism between
globalizing and localizing tendencies that will, even if unevenly, coexist with each other. For this to take place, individuals must appreciate that they can advance both local
and global values without damaging either and that multiple loyalties to different local, national, and transnational
affiliations need not be mutually exclusive. People can be
loyal to family, community, country, and the world’s people simultaneously. In a globalized world, more and more
people become aware of the extent to which their wellbeing is dependent on events and trends elsewhere.
PROBLEMS IN WORLD DEVELOPMENT
The structure, behavior, and impacts in time and space of
the world economy are highly uneven. Temporally, world
economic growth rates have waxed and waned, dropping
during recessions and rising during years of prosperity,
and rates of economic growth are very uneven among different world regions. As growth plays out differentially
over different regions it generates new geographies of
wealth and poverty. High growth rates, such as those that
have occurred for decades in East Asia, pull people out of
poverty and create a middle class. Low economic growth
rates, such as those in Latin America and especially Africa,
mean that people’s standards of living increase slowly, or
not at all, depending on labor markets, rates of inflation,
unemployment, and population growth.
Despite the economic progress in many parts of the
world, there are still vast areas of the planet in which billions of people remain mired in deep poverty. Much of the
world has not benefited from globalization. Economic development, and the lack of it, are thus important questions
for economic geographers. Development is a concept full
of hope, even though the jolts and dislocations can be horrendous when long-standing traditions and relationships
are broken down. The purpose of development is to improve the quality of people’s lives—to provide secure jobs,
housing, adequate nutrition and health services, clean
water and air, affordable transportation, and education.
Whether development takes place depends on the extent
to which social and economic changes and a restructuring
of geographic space help or hinder in meeting the basic
needs of the majority of people (see Chapter 14).
Problems associated with the development process
occur at every level, ranging from a Somalian villager’s access to food and a health clinic to international trade relations between rich and poor countries. Our attempts to understand development problems at the local, regional, and
international levels must consider the principles of resource use as well as the principles surrounding the exchange and movement of goods, people, and ideas. Two
critical issues require immediate attention. One is the challenge to economic expansion posed by the environmental
constraints of energy supplies, resources, and pollution
(Chapter 4). The other element is the enormous and
explosive issue of disparities in the distribution of wealth
between rich and poor countries, urban and rural areas,
wealthy and poor people, dominant and subordinate ethnic
groups, and men and women (see Chapter 14).
Environmental Constraints
The world environment—the complex and interconnected
links among the natural systems of air, water, and living
things—is caught in a tightening vise. On the one hand,
the environment is being stressed by the massive overconsumption and wasteful consumer culture of the developed
world. On the other hand, the environment is being
squeezed by the poor people in developing countries
who must often destroy their resource base in order to
stay alive. The constraints of diminishing energy supplies,
resource limitations, and environmental degradation are
three obstacles that threaten the possibility of future economic growth.
There is a significant energy problem in much of the
developing world. Oil is an unaffordable luxury for much
of the world’s population, who cook and heat with fuelwood, charcoal, animal wastes, and crop residues. In
countries such as India, Haiti, Indonesia, Malaysia,
Tanzania, and Brazil, fuelwood collection is a major cause
of deforestation—one of the most severe environmental
problems in the underdeveloped world.
The fragility of the environment poses a formidable
obstacle to economic growth. Are there limits to growth? Is
the world overpopulated? Some of our present activities, in
Chapter 1 • Economic Geography: An Introduction
the absence of controls, may lead to a world that will be
uninhabitable for future generations. Topsoil, an irreplaceable resource, is being lost because of overcultivation, improper irrigation, grassland plowing, and deforestation.
Water tables are falling, including in the United States,
where, for example, the Ogallala water basin under the
Great Plains is in increasing danger of being rapidly depleted. Forests are being torn down by lumber and paper
companies and by farmers in need of agricultural land and
wood to keep warm or cook their food. Water is being
poisoned by domestic sewage, toxic chemicals, and industrial wastes. The waste products of industrial regions are
threatening to change the world’s climate. Accumulated
pollutants in the atmosphere—carbon dioxide, methane,
nitrous oxide, sulfur dioxide, and chlorofluorocarbons—
are said to be enhancing a natural greenhouse effect that
may cause world temperatures to rise. El Niño events, or
periodic warming of the Pacific Ocean by just 0.25 degrees
Fahrenheit, caused violent weather disruptions worldwide,
with billions of dollars worth of damage from floods, mudslides, and loss of life. Chlorofluorocarbons, which were
used as aerosol propellants and coolants and in a variety
of manufacturing processes, are blamed for damaging the
earth’s ozone layer, which protects living things from excessive ultraviolet radiation from the sun. Yet another hazard to the environment is the fallout from nuclear bomb
tests that took place in the 1950s and 1960s and from nuclear power reactor accidents such as those at Three Mile
Island, Pennsylvania, and Chernobyl, Ukraine.
Disparities in Wealth and Well-Being
The world economy generates great variations in economic
structures, standards of living, and quality of life around the
globe. There are enormous differences between the world’s
richest and poorest nations in wealth and standard of living
as measured by economic statistics such as GNP per capita
and paralleled by social and demographic measures such as
life expectancy, infant mortality rates, literacy, and caloric
consumption. In short, maps of economic measures are simultaneously maps of other dimensions of people’s lives,
including how long they live, the chances that their babies
will grow into adults, their ability to read and write, and the
quality of the food they eat. These numbers point to the
multifaceted nature of poverty and development, which is
not just economic but also social and political.
Poverty afflicts relatively few people in economically
developed countries, although there are nonetheless disturbingly large numbers of poor in wealthy societies such as
the United States, including hunger and malnutrition among
families in Appalachia or on Native American reservations,
bankrupt farmers on the Minnesota prairie, unemployed
factory workers in Detroit, and single mothers on welfare in
New York. Deeply entrenched, institutionalized poverty
confines billions of people to lives of inadequate food, shelter, health care, transportation, education, and access to
other resources. Mass poverty is the single most important
world development problem of our time. You cannot doubt
17
this assertion when you see maimed people on the streets
of Bombay, begging children in Mexico City, desperate farm
laborers in Brazil, emaciated babies in Mali, or women and
children carrying firewood on their backs in the countryside
north of Nairobi. Mass poverty is ethically intolerable and a
critical issue that we must try to overcome.
Who are the world’s poor? They are the 15 million
children in Africa, Asia, and Latin America who die of
hunger every year. They are the 1.5 billion people, or 24%
of the world’s population, who do not have access to safe
drinking water. They are the 1.4 billion without sanitary
waste disposal facilities. They are the 3 billion people—
50% of the world’s population—who live in countries in
which the per capita income was less than $400 in 2005.
Half of the world (largely in Africa) earns $2 per day or
less. These numbers are characteristic of impoverished
countries in which much economic activity takes place
outside of the market. These people are caught in a vicious cycle of poverty (Figure 1.10), often with few ways
out, and lead lives of quiet desperation and hopelessness.
Their life expectancies tend to be short, infant mortality
levels high, and access to energy, medical care, transportation, and education often minimal. The economic geography of the world is at its core concerned with these social
and spatial discrepancies among and within countries.
The poor of the world overwhelmingly live in developing countries, most of them former European colonies,
which failed for one reason or another to keep up with the
economic levels of the West over the past 500 years. During
the worldwide economic boom that occurred in the three
decades following World War II (1945–1975), the GNP of
the developed countries more than doubled. Although per
capita real income in developing countries also rose, incomes in developed countries rose much more quickly.
Developed countries enjoyed 66% of the world’s increase,
whereas half of the world’s population in underdeveloped
countries (excluding China) made do with one-eighth of the
world’s income. By 1982, the national income of the United
States (then 235 million people) was about equal to the total
income of the Third World (more than 3 billion people). In
short, over the past half-century the rich have become richer and the poor have gained only slightly.
The developing world is far from a homogeneous entity; that is, there are enormous differences among and
within developing countries in terms of their historical
background, cultures, economies and standards of living,
and when and how they were incorporated into the world
system. So great are the variations among countries, and
often within, that it is simplistic to speak of a single developing world without immediately acknowledging its differences. To lump, say, South Korea, which has a standard
of living similar to southern Europe, together with
Mozambique, one of the world’s poorest states, is to fail to
understand the profound differences that separate them.
With the debt crisis of the 1980s, the United States finally discovered it had a real stake in the prosperity of the
developing world. The inability of some countries to make
payments on their debt placed the financial structures of
18
The World Economy: Geography, Business, Development
FIGURE 1.10 The cycle of poverty
in Third World countries. Most Third
World nations have low per capita
income, which leads to a low level
of saving and a low level of demand
for consumer goods. This makes it
very difficult for these nations to
invest and save. Low levels of
investment in physical and human
capital result in low productivity for
the country as a whole, which leads
to underemployment and low per
capita income. In addition, many of
these countries are faced with rapid
population growth, which contributes
to low per capita incomes by increasing
demand without increasing supply or
output. Yet, the number of people
going hungry in the world, as of 2011,
has been dropping since 2007, partly
due to a recession-fueled drop in world
food prices.
Low Real
incomes
Unemployment
Underemployment
Low
ouput
the United States and some European nations in jeopardy.
Many U.S. banks, including some of the largest, would
technically have been insolvent if their loans to developing
nations had been declared in default. This led to enormous pressure to resolve the immediate problems of the
debt crisis, many of which were directly related to the
poor performance of the economies of the debtor nations.
Unfortunately, for many debtors, the solution often
proved to be more painful than the problem itself. Under
strict rules imposed by the IMF and other international
agencies, which believed in market fundamentalism (the
narrow notion that only free markets can alleviate social
problems), stringent limits were placed on the economic
policies of debtors, with the result that a majority of citizens
in these nations often found themselves worse off. The
goals of IMF conditionality, as it came to be called, were
to restore growth, reduce central government involvement
in the economy, and expand the exports of goods and
Rapid
population
growth
Low level
of saving
Low level
of demand
Low levels of
investment in
capital
services while reducing imports so that the debtors would
have sufficient earnings of foreign revenue to make payment
on the interest and principal of their debt.
There is little evidence that these policies helped to
restore economic growth, and they even lowered many
people’s quality of life, as the former chief economist of the
World Bank, George Stiglitz (2002), noted, by forcing drastic
cutbacks in necessary government services and forcing currency devaluations that drove up the cost of imports.
However, such changes did result in export surpluses that
made debt servicing easier. As a consequence, the 1990s
saw a remarkable reversal in the flow of financial resources—
instead of the flow from rich nations to poor nations to
assist in development efforts, there was a flow from poor
to rich. But debt repayments have become a serious obstacle to further economic development in poor countries
where capital and financial resources are scarce and every
dollar lost has repercussions throughout the economy.
Summary and Plan
This book explores the economic geography of capitalism,
especially on a global scale. Although it is important to understand the local and national levels of economic activity,
the rapid growth of the world economy has increasingly
focused attention on processes, problems, and policies at
the international scale. In this chapter, we present the geographer’s perspective. We provide a definition of the field
and introduce the main concepts geographers use to interpret and explain world development problems at a variety
of scales, ranging from small areas and regions to big
chunks of the world.
The following chapters of this text, which progress in
logical sequence, are organized around the themes of distribution and economic growth. Chapter 2 provides a historical
overview of the development of capitalism. Chapters 3 and 4
deal with population and resources, respectively, issues of
major significance in economic geography. Chapter 5 summarizes many of the concepts and theories that inform the
analysis of economic landscapes. Chapters 6 through 8 apply
these ideas to the primary, secondary, and tertiary economic
sectors, respectively (agriculture, manufacturing, and services),
examining the unique dynamics of industries in each sector
and how they change over time and space. Chapter 9 dwells
on transportation and communications, fundamental industries in the movement of goods, people, and information
among places. Chapter 10 departs from the general global
focus to explore the economic geography of cities; given
that half the human race lives in urban areas, this topic is important. Chapter 11 turns to the issue of consumption, an integral part of economic activity and landscapes. Chapters 12
Chapter 1 • Economic Geography: An Introduction
and 13 deal with the expanding world of international
business—trade, foreign investment, finance, its operations,
environments, and patterns. The final chapter, Chapter 14,
19
examines the geography of development and illustrates how
economic growth creates a world of uneven and unequal
wealth and poverty.
Key Terms
behavioral geographers
5
capital 6
capitalism 6
development 16
economic geography 2
First World 10
foreign direct investment
(FDI) 14
globalization 12
greenhouse effect 17
hegemonic power 11
Homo economicus 4
IMF conditionality 18
international economic
order 10
international economic
systems 10
knowledge worker 15
labor 6
land 6
location theory 4
political economy 5
poststructuralism 6
product market 6
profit 6
raw materials 15
Second World 10
spatial integration 4
spatial interaction 4
Third World 11
transnational corporation
(TNC) 13
world economy 9
Study Questions
1.
2.
3.
4.
5.
What defines the geographic perspective?
Define economic geography.
Why are geography and history inseparably linked?
Why can’t places be studied in isolation from each other?
What are some ways in which nature shapes, and is shaped
by, the economy?
6. How is the economy related to culture?
7. Why are social relations an important place to begin understanding economic landscapes?
8. Define the term globalization and list reasons why it has
occurred.
9. What are four ways in which globalization is manifested?
10. What is location theory?
11. What is the political economy approach to geography?
12. How have poststructuralists contributed to the analysis of
economic issues?
Suggested Readings
Coe, N., P. Kelly, and H. Yeung. 2007. Economic Geography: A
Contemporary Introduction. Oxford: Blackwell.
Dicken, P. 2010. Global Shift: Mapping the Changing Contours of
the World Economy. 6th ed. New York: Guilford Press.
Florida, R. 2004. The Rise of the Creative Class. New York: Basic
Books.
Friedman, T. 2005. The World Is Flat: A Brief History of the
Twenty-first Century. New York: Farrar, Straus and Giroux.
Harvey, D. 2006. A Brief History of Neoliberalism. Oxford: Oxford
University Press.
Knox, P., J. Agnew, and L. McCarthy. 2008. The Geography of the
World Economy, 5th ed. London: Edward Arnold.
Scott, A. J. 2006. Geography and Economy. Oxford: Oxford
University Press.
Shepard, E., and T. Barnes, eds. 2002. A Companion to Economic
Geography. New York: Wiley.
Stiglitz, J. 2002. Globalization and Its Discontents. New York:
WW Norton.
Web Resources
Association of American Geographers
http://www.aag.org/Careers/Economic_Geography.html
U.S. Bureau of the Census
http://www.census.gov
Summary of economic geography emphasizing career possibilities.
Vast collection of data and reports about the U.S. economy and
society, with some international data as well.
NationMaster
http://www.statemaster.com/encyclopedia/
Economic-geography
Short, efficient summary of economic geography, its history and
diversity.
Wikipedia
http://en.wikipedia.org/wiki/Economic_geography
Good but brief overview of economic geography.
Log in to www.mygeoscienceplace.com for videos, In the
News RSS feeds, key term flashcards, web links, and self-study
quizzes to enhance your study of economic geography.
OBJECTIVES
쑺 To explore the historical context of capitalism,
including its feudal origins
쑺 To provide an overview of the characteristics of
capitalist economies
Women working at a shoe manufacturing
factory in 1950 Brazil exemplify the harsh
working conditions and exploitative use
of labor that occurred frequently in the
historical geography of capitalism.
쑺 To document the importance of the Industrial
Revolution and its impacts
쑺 To shed light on the relations between colonialism
and global capitalism
CHAPTER
The Historical Development
of Capitalism
2
eographies are not created overnight. The spatial distribution of people and economic activities reflects the
imprint of processes that take years, even centuries, to unfold. For this reason, a historical understanding of
economic landscapes is absolutely essential for understanding the contemporary geographies of the world.
Because the present is produced out of the past, and shaped by it in countless ways, any serious understanding of
economic geography must include an appreciation of how the contemporary world came to be. A historical appreciation reminds us that the construction of the modern world took a long time to occur and that the landscapes of the
present are constantly changing (thus reflecting the first analytical theme introduced in Chapter 1).
This chapter provides a historical appreciation of capitalism in several ways. First, it delves into the context in
which capitalist economies and societies were born and developed, particularly feudalism. Second, it explores the
characteristics of capitalism, the features that make it unique. Capitalism—the dominant form of production and
consumption around the world—is not the only way in which human beings have organized themselves, but came
into being in the sixteenth and seventeenth centuries, mostly in Western Europe. Third, this chapter describes the
Industrial Revolution, which began in the eighteenth century and marked an exponential increase in the scale and
speed of capitalist activities. Finally, it addresses the relations between capitalism and colonialism, the process by
which capitalism “went global,” spilling out of Europe and effectively conquering the rest of the globe.
G
FEUDALISM AND THE BIRTH OF CAPITALISM
Human beings have developed many ways of organizing resources and production systems and providing for themselves over time. For the vast bulk (95% or more) of human existence, we were hunters and gatherers, food collectors
depending on nature for food and other necessities. The agricultural revolution that began roughly 10,000 years ago saw
a major transition in the ways in which people worked and lived, including the establishment of settlements and the first
class-based societies. Many early agricultural societies were based on slavery; in Europe, this process culminated in the
Roman Empire, which ended in the fifth century A.D.
Prior to capitalism, the prevailing form of economic and social relations was feudalism, which lasted for more
than a millennium, approximately from the fifth to the fifteenth centuries. Sometimes called the Middle Ages or Dark
Ages, the feudal system was deeply entrenched and relatively stable for a long period. Feudalism was not unique to
Europe, as other places had a similar social organization, including Japan and to some extent India. Politically, this
type of system manifested itself in Europe as a changing series of empires, including the Frankish kingdoms, the
Normans, the Holy Roman Empire, tsarist Russia (which lasted until World War I), and the Austro-Hungarian Empire,
which ended only in World War I. Indeed, one of the major differences between Europe and the United States is the
impact that feudalism had in Europe: In North America, capitalism emerged on a landscape that had not been shaped
by more than a millennium of feudalism, as was Europe, including its land use and property systems, cities, and class
and gender relations.
Characteristics of Feudalism
Feudalism was marked by a distinct set of interlocking characteristics that made it qualitatively different from capitalism,
reminding us of the uniqueness of the economy and social system in which we live and work today.
Compared to the dynamic, ever-changing world in which we exist, feudalism comprised a remarkably stable and
conservative world that changed relatively little. To an observer of feudal France in the eighth century and Poland in
21
22
The World Economy: Geography, Business, Development
the eighteenth century, there would appear to be relatively
few differences. Most people’s lifestyles—working the land
in a cycle of endless drudgery—would be the same from
one generation to another. Almost everyone lived like their
fathers and mothers before them and their grandparents
before them. Tradition gave the dominant shape to human
experience and to everyone a sense of where they fit into
the world. In this sense, feudalism actively discouraged
experimentation and change. Under capitalism, in contrast,
novelty is the norm, for it helps to sell goods and services
in the market.
However, it is erroneous to think of the feudal era
as completely static. Indeed, this view arose during the
Renaissance, when historians sought to contrast the changes
of their day with the alleged stasis of the past. In fact, during the later feudal period there was significant change:
Universities were established, new types of farming and new
technologies introduced, wetlands drained, forests cleared,
plagues and diseases spread, and political conflicts caused
enduring changes. The introduction of the longbow and
guns in the fourteenth century, for example, made knights
essentially obsolete.
In Europe, the church (that is, the Catholic Church
until the Protestant Reformation of the sixteenth century)
was by far the predominant political/ideological institution.
Most people were extremely religious, and their belief in
god informed every aspect of their behavior and everyday
life. The population fatalistically accepted its lot in life, and
the idea of progress, of change for the better, was largely
unthinkable. In most towns, the cathedral was the largest
and most impressive building, its size and design a testimony to the wealth and power of the church (Figure 2.1).
Local priests, who were often the only ones who could
read and write (and even many of them were illiterate),
were important actors in the community’s spiritual and
intellectual life, serving as judges and teachers and officiating at weddings and funerals. Education and schooling
emphasized the Bible. In Rome, the Pope exerted great
power over kings and nobles throughout the continent,
often appointing leaders and threatening to excommunicate
those who did not obey. Popes were masters of politics,
wealthier than anyone else, and often corrupt. The church
owned farmland and hunting estates, raised taxes, and
even had its own armies. and the Pope could excommunicate recalcitrant kings.
Under the feudal system, an aristocratic nobility made
up the ruling class, whose power lay in the ownership of
land, which was the basis of wealth and political power.
There were many tiers within this ruling class, including a
variety of lords, dukes, earls, barons, and others.
Ownership of land was the basis of wealth and political
power. Aristocrats typically owned vast estates of farmland, and under the manorial system that characterized
feudalism, the extraction of surplus value occurred
through the payment of rent by tenant farmers who paid
tribute to their local lords, who owned the land. Often the
farmers paid one-half or more of their output as rent,
in exchange for protection. Thus, rent payments were
FIGURE 2.1 Notre-Dame de Reims, France. The size and beauty
of medieval cathedrals, which often took more than a century
to construct, testify to the power and wealth of the church during
that era.
the primary form of wealth transfer from the poor to the
wealthy, which occurred through the state rather than
through a market system, for unlike the capitalist system,
there was no effective division between public and private property. The aristocracy controlled the reins of government, including the military and penal system, and
their private interests were synonymous with those of the
state. Knights and the military existed to enforce the rule
of aristocratic law and to protect local communities from
brigands, robbers, and invaders.
In an overwhelmingly rural society, in which the
productivity of agriculture was comparatively low, the
vast majority of people were peasants and farmers.
Farming under feudalism was based on animate sources
of energy, that is, living human and animal muscle power.
Peasants and draft animals worked the fields, collected
firewood, drew water from wells, and performed the
innumerable other tasks necessary to keep their society
working. Child labor on the farms was the norm,
birthrates were high, and most people lived in large,
extended families in small hamlets and villages, many of
which were self-sufficient, producing their own food,
clothing, and other necessities. Peasants were almost
entirely illiterate, ignorant even of events a few miles
away, unaware of what century they lived in. Although
Chapter 2 • The Historical Development of Capitalism
Christian, most also believed in witches, spirits, goblins,
and other supernatural beings.
Markets existed under feudalism but typically were
small and poorly developed, and only the wealthy had
the income required to buy luxury goods. Typically, markets consisted of seasonal fairs where itinerant merchants
(often Jews) sold metal goods, silks, or jewelry. Thus, feudalism was not a type of society in which markets were
the central institution that governed the allocation of
resources; rather, this function belonged to the state.
A substantial share of the rural population, but not
everyone, consisted of serfs (Figure 2.2). Serfdom was a
uniquely feudal institution that differed from economic
systems based both on slavery and on capitalism. A serf
was not a slave, that is, he or she was not owned by a
master. Rather, serfs were bound to the land by feudal law
and custom. The standard of living for virtually everyone
except the aristocrats and some merchants was very low.
Serfs and other farmers (including pools of “freemen”)
lived a monotonous life in which each day was identical to
the day before, doing the same chores, eating the same
food, and seeing the same people. Most people lived very
simply. Diets were typically inadequate, and malnutrition
was common. Famines broke out every few years. Life expectancy in feudal Europe was typically under 50 years.
Many women died in childbirth, and infant mortality rates
23
were high. Water supplies were often infected by bacteria,
and diseases such as cholera, plague, and tuberculosis
took an enormous toll in human lives and suffering.
Agricultural work was organized around the rhythms of
the seasons, with different tasks for the spring, summer, fall,
and winter. Winters, for example, might be spent indoors,
weaving or fixing farm implements. Spring was a time of
planting. Summers involved tending to the crops and livestock. And the fall was the time of the harvest, for many the
central event of the year. The extended families that included
several generations often cohabited in one dwelling; grandparents, parents, nieces, nephews, cousins, and infants lived
in crowded rooms, often without paved floors. A family
sleeping together in one bed, sometimes including dogs
and pigs for warmth, was not unusual. Because the vast
majority of people were illiterate (even many kings, queens,
aristocrats, and priests were unable to read and write), peasants and farmers passed lessons, including superstitions, on
to their children through poems and stories.
Although feudal society was predominantly rural and
agricultural, there were a few cities and towns. Urban areas
under feudalism were very different from those of today.
Because agricultural productivity rates were low, and the
ability of farmers to support urbanites correspondingly
limited, cities were small. Most farming hamlets did not
exceed 200 or 300 people, and cities over 10,000 people
were rare. Of course, there were a few metropolitan areas,
such as Constantinople or London, but these were few and
far between. Feudal cities were densely populated, with
the inhabitants crowded together, often in very unsanitary
conditions. There was no running water or sewer system,
and the streets were often covered with mud and animal
waste. The centers of feudal cities often consisted of a walled
fortress, often with a small palace located within where the
local lord lived. As the town grew, new walls would be
constructed, leading to concentric rings (Figure 2.3).
Because land was not a commodity to be bought and sold,
but allocated on the basis of power, there was little differentiation among land uses. Commercial and residential land
uses were mixed together, and there was no effective distinction between home and work.
Within the cities, feudal guilds, or associations of craft
workers and artisans, produced a variety of goods. Guilds
consisted of skilled workers with years of experience and
were organized by the type of good they produced. There
were, for example, blacksmiths’ guilds, weavers’ guilds,
goldsmiths’ guilds, and guilds for bakers, leather workers,
paper makers, glass workers, and shoemakers. Young men
who were chosen to work in the guild spent years as
apprentices learning the trade before becoming craftsmen
in their own right.
The End of Feudalism
FIGURE 2.2 Serfs were the mainstay of the feudal labor force,
producing the agricultural surplus that supported the aristocracy and
the state. Serfs lived monotonous lives, paying a large share of their
output as “rent” to their local lord. They exemplify a noncapitalist
form of labor organization (i.e., without labor markets).
The feudal period in Europe saw relatively few changes
from the sixth to the fourteenth centuries compared to the
much more dynamic system of capitalism that followed.
Innovation and change were discouraged, and feudal society
24
The World Economy: Geography, Business, Development
FIGURE 2.3 Carcassonne, France, offers an excellent example of feudal urbanization, including
the concentric walls that often surrounded such
communities.
was remarkably stable. However, the late medieval period,
starting around the eleventh century, witnessed a gradual
agricultural revolution based on the introduction of the
heavy plow, waterwheels, the horseshoe, stirrup, the threefield system of farming, and several other innovations,
which were introduced from other, more advanced societies
such as the Arab, Indian, and Chinese. Other imports included
cotton, the compass, sugar, rice, silk, paper, printing, the
needle, the concept of zero, and the windmill. The Arab
conquest of Spain made the Iberian peninsula a primary
point of entry for new ideas and technologies.
Feudal Europe was the western terminus of a much larger world system that stretched across the Mediterranean, the
Middle East, the Indian Ocean, and into Eastern Asia (Figure
2.4), connecting most of the Old World. The Arab world’s
strategic location astride Asia, Africa, and Europe placed it at
the center of the enormous trade networks that linked places
as far flung as China, Mozambique, and Belgium. Straddling
the center of the feudal world system, the Caliphates centered in Damascus and Baghdad guaranteed safe passage
between two critical worlds—the Mediterranean and the
Indian Ocean—that had been separated since the collapse of
Rome. A vital part of the Sung economy, as well as of the
dynasties that came before and after it, was the Silk Road
(a name coined by geographer Ferdinand von Richthofen in
1877), the umbilical cord that connected Europe, the Middle
East, Central Asia, South Asia, Tibet, and China with ceaselessly flowing caravans of goods, innovations, ideas, merchants, missionaries, and armies. Few individuals traveled
the entire distance of the Silk Road; rather, it was served by
networks of intermediaries. The name “Silk Road” is somewhat misleading: It suggests a continuous journey, whereas
goods were in fact transported by a series of routes, by a
series of agents, passing through many hands before they
reached their ultimate destination.
For 2000 years, the Silk Road caravans formed the
primary artery of Eurasian commerce, linking ports, trading
cities, oases, and innumerable different cultures. From China
came jade, paper, the compass, gunpowder, printing, porcelain, lacquer ware, silk, pearls, peaches, apricots, citrus fruits,
cherries, and almonds; moving in the other direction, at
various times, China acquired horses, hides, furs, dyes,
amber, pistachios, saffron, castor beans, sesame, peas,
onions, coriander, cucumbers, grapes, sugar beets, kohlrabi,
ivory, tortoise shells, rhinoceros horns, and, oddly, the chair.
The Chinese established customs posts on the Silk Road to
minimize smuggling and to tax goods as they passed and
controlled Chinese merchants with the first known passports. So, too, did religions flow along this highway, including Manicheism, Zoroastrianism, Buddhism, and Islam. The
Silk Road was therefore as important for the flows of cultures
and ideas it expedited as for the flows of goods.
The introduction of innovations constituted a commercial revolution of sorts for they improved European agricultural productivity. The supply of agricultural land expanded
as peasants and farmers in the late Middle Ages cut down
forests and drained swamps to make room for new
farmland. The heavy plow opened up the thick soils of
northern Europe and expanded the amount of arable land
for farming. This set of circumstances led to a gradual
increase in the urban population. By the fifteenth century,
much of Western Europe was carpeted by a growing network of cities, called “newtowns” in Britain and “villanovas”
in Spain. The increase in productivity was commensurate
with the undertaking of the construction of cathedrals.
It must be emphasized, however, that compared to
much of the rest of the world, feudal Europe was relatively
primitive. Standards of living and rates of innovation in
Europe from the fifth to the fifteenth centuries were much
lower than in the wealthier, more powerful, and more
Chapter 2 • The Historical Development of Capitalism
Bergen
Turku
Tallinn
Stockholm
Baltic
Sea
25
Novgorod
Riga
Lübeck
Danzig
Hamburg
London Bremen
Bruges FLANDERS
ENGLAND
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MONGOLIA
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BENGAL
Hormuz
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Sea
Timbuktu
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Sea
South
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Sea
COROMANDEL
MALABAR
Calicut
Quilon
Malacca
INDIAN
Principal areas of
sedentary production
OCEAN
Palembang
Principal trade routes
JAVA
Regional trade areas
FIGURE 2.4 The precapitalist world system of the fourteenth century. A diverse array of societies stretching from feudal Europe to the
Middle East formed one network embedded within a much broader trade system. Across the Indian Ocean, southern India, Indonesia,
and China under the Sung and Ming dynasties constituted another set of networks. Overland trade along the Silk Road routes formed
yet a third circuit. Unlike the capitalist world system that arose later, in the sixteenth century, this one lacked a distinct core.
sophisticated societies of the Arab world, India under the
Mughals, and China under the Sung and Ming dynasties.
Indeed, many of the luxury goods and innovations that
Europeans imported came from these wealthier societies.
Among the other things introduced to Europe was a
bacterium, yersinia pestis, which causes a deadly disease,
bubonic plague, common in rodent populations in the
central Asian steppes, or grasslands. Among humans,
bubonic plague is highly contagious and was called the
Black Death for the dark, swollen lymph glands it produced. In 1347, a ship carrying plague landed in Genoa,
Italy, which was part of the expanding trade network between Europe and the Middle East and Asia. Within four
years, one-quarter of Europe’s population—more than 25
million people—was dead. The plague raced through the
crowded, unsanitary cities, annihilating the majority of inhabitants in places. From southern Europe, it spread north,
to Germany, Britain, Scandinavia, and Russia (Figure 2.5).
Since the notion of germs was nonexistent, feudal Europe
had no means of understanding or controlling the plague:
frequently used “remedies,” such as burning Jews or
witches, did not halt its spread.
Several historians have speculated that the plague
played a major role in upsetting the foundations of feudal
Europe, destabilizing it and opening the door to a new
type of society. Within a few years, much of the continent
experienced severe labor shortages; Europe went from
being a land-poor, people-rich to a people-poor, land-rich
group of societies. The disintegration of legal systems
allowed serfs to run away without fear of being caught
and returned. Others have argued that feudalism was suffering from numerous problems anyway and would have
collapsed without the plague. For example, in some cities,
such as Florence, Italy, capitalist social institutions like
banks were already emerging before the fourteenth century.
In any case, combined with other changes, including a
mini-Ice Age that reduced growing seasons from the sixteenth to the nineteenth centuries, the Hundred Years War
between France and England (1337–1453), and the impacts
of the Crusades, feudalism in Europe slowly began to
crumble, and from its ashes a new economic, political, and
social system emerged: capitalism.
THE EMERGENCE AND NATURE OF CAPITALISM
Over several hundred years, from the fifteenth to the nineteenth centuries, feudalism in Europe was gradually
replaced by a new kind of society based on capitalism.
The World Economy: Geography, Business, Development
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FIGURE 2.5 Diffusion of the bubonic plague through fourteenth-century Europe. The plague’s devastation disturbed feudal Europe’s
equilibrium, creating labor shortages and destabilizing the social structure. Some historians argue that the plague facilitated the
emergence of capitalism.
Thus, feudalism served as the womb that incubated what
would ultimately become the most powerful type of economic, cultural, and political system in the world. Of
course, to those who lived through it, this transition would
have appeared very slow and perhaps almost invisible.
If capitalism can be said to have a birthplace, the most
likely location would be in northern Italy. The city-states of
this peninsula, among them Florence, Venice, Pisa, and
Genoa, played a key role in creating the new kind of
society. They had large groups of wealthy merchants,
including the famous Medici family of Florence, who had
active commercial ties to the Middle East (Figure 2.6) and
vast holdings in silver mines, silk production, and banking.
Northern Italian city-states had flourishing trade networks
across the Mediterranean, including with the Arabs in Egypt
and the Middle East. In northern Europe, a network of
cities formed the Hanseatic League, which stretched from
Russia and Scandinavia across northern Germany and to
the North Sea (Figure 2.7). The Hanseatic League united
a disparate series of proto-capitalist urban centers (it eventually collapsed as trade moved across the Atlantic Ocean).
In these centers, the rising groups of burghers, or merchants, accumulated wealth and power that would make
them the dominant figures in a new social order.
Like feudalism, capitalism possesses a distinct set of
characteristics that define it and give it its unique form.
The major features of capitalism are described next.
Markets
Unlike feudalism and slavery, in which resources are allocated principally through the political power of the state,
under capitalism the most important (but not only) institution of allocation is the market. Markets consist of buyers
and sellers of commodities, which are goods and services
bought and sold for a price. Not everything is a commodity
Chapter 2 • The Historical Development of Capitalism
HOLY ROMAN EMPIRE
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nu
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er
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(Genoa)
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PAPAL
STATES
Tib
SIENA
FIGURE 2.6 Italian city-states in 1494.
Capitalism began in northern Italy,
and for much of its history (prior
to unification in mid-nineteenth
century) its political geography was
characterized by city-states, not
nation-states. Italian states such as
Florence, Genoa, and Venice had
extensive trade relations with the
rest of the Mediterranean world,
and their wealthy merchant families
rose to power.
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NAPLES
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under capitalism (e.g., air); only scarce goods (i.e., those
that command a price and can generate a profit for producers) can be classified as such. The expansion of market
societies saw the steady commodification of different
goods and services, including food, housing, clothing,
transportation, education, entertainment, medical care, and
other domains. Thus, things that used to be produced on a
subsistence basis or bartered came increasingly to be made
for sale on a market, their value determined by the amount
of money they commanded.
Based on the type of commodity being produced and
consumed, as well as the amount and nature of competition, markets come in a huge variety. They range from
free-wheeling and highly competitive, with many small
producers who must accept the price the market hands
them, to large markets dominated by a few major producers,
or oligopolists, who can shape the market price. In marketbased societies, private property and the right to own it
are key requirements for production; after all, a good cannot be sold unless the seller owns it. Markets thus do not
exist or function well without appropriate legal guarantees
to protect property rights, such as the right to own real property or intellectual property. The incentive of producers to
sell goods and services is profit, the difference between
gross revenues and production costs. Thus, markets
involve production for exchange, rather than subsistence
or use. In this sense, capitalism involved the triumph of
the private sphere over the public one.
Because markets involve competition among different
producers, there is a strong incentive to produce goods and
services cheaply and efficiently and to please consumers.
Generally, the more competitive a market is, the more
dynamism and innovation it exhibits. Thus, competitive
markets contain a powerful incentive to innovate, which is
largely responsible for making capitalist societies so conducive to change. In this sense, capitalist societies differ
considerably from noncapitalist ones in that capitalism
rewards innovation, change, and risk taking.
Markets did not begin with capitalism. For example,
there were markets in slave-based societies like the Roman
Empire. There were occasional markets in feudal Europe
in the form of annual fairs and festivals, which brought
traveling merchants and local populations together.
Typically, precapitalist markets were poorly developed,
however, and involved relatively few luxury goods and
centered on the needs and wants of the elites. However,
28
The World Economy: Geography, Business, Development
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FIGURE 2.7 The Hanseatic League of fifteenth-century Europe was a loose connection of cities and principalities whose trading
connections extended from the Baltic Sea to the North Sea. In those places, the emerging burgher or merchant class would have been
at the forefront of the new class relations that accompanied the emergence of capitalism.
markets are unique in their importance to capitalism: Only
under capitalism are markets the major way in which resources are allocated. It is worth emphasizing that markets
are not the only way in which resources are organized, for
even in ostensibly “free-market” societies (which do not
exist in fact), the state, or government, plays a key role,
including protecting property rights, building the infrastructure, providing public services, and protecting firms
from foreign competition (Chapter 5).
Class Relations
Although capitalist societies are sometimes depicted as
being devoid of class (e.g., as consisting only of individual
buyers and sellers), market-based systems in fact do have
social classes of different kinds. In contrast to feudalism,
the rise of the capitalist class system reflected a broad-
based shift from a hierarchy based on tradition to one
based on money, from status born of rank to status
earned, and the ascendancy of the merchant class, or what
is sometimes called the bourgeoisie (the middle class of
feudalism, the ruling class of capitalism).
As the merchants and burghers of Europe gained
wealth, power, and prestige in the fifteenth through seventeenth centuries, they came to enjoy increasing political
and cultural power (Figure 2.8). Essentially, the merchant
class became a capitalist class, that is, the owners of capital. The feudal aristocracy, which correctly perceived the
newcomers to be a lethal threat to their centuries of rule,
resisted the rise of the new class and its associated power,
wealth, and prestige. Many kings, earls, and dukes held
merchants in low regard, as money-grubbers who were
not motivated by ancient (and increasingly quaint) notions
of god and honor. Conflicts between the merchant class
Chapter 2 • The Historical Development of Capitalism
FIGURE 2.8 Rembrandt’s painting Sampling Officials of the
Drapers’ Guild (1662) exemplified the wealth and prestige of the
new bourgeoisie in early capitalist Europe.
and its interests on the one hand and the feudal elite on
the other grew steadily in number and intensity, revolving
around issues like levels of taxation, the freedom to open
markets at particular hours (e.g., on holidays), and merchants’ loans to kings, largely for purposes of waging war.
The demise of the feudal aristocracy came gradually in
some places, such as England (e.g., during the civil wars of
the seventeenth century), and suddenly in others, such as
France, where the aristocracy collapsed abruptly in the
Revolution of 1789.
In addition to changing the role and nature of the ruling classes, capitalism changed those of the workers as
well. In particular, labor itself became a commodity, that
is, bought and sold for a price (wages) in labor markets.
Workers under capitalism, unlike those of feudal Europe,
must sell their labor power to survive. Thus, the process
of commodification extended to include the capacity to
labor. Over several centuries, the peasants and serfs of
Europe were gradually forged into a working class. This
was not a simple process; it involved driving rural workers off the land and inculcating new norms, such as working the hours dictated to them by their new bosses, the
capitalists. In the context of industrial Europe, the working class became known as the proletariat.
Finance
The growth of capitalism brought about a deep and fundamental change in the role of money, which increasingly
became the measure of all worth. In noncapitalist societies, barter plays a major role in organizing economic
relations: Goods may be traded for one another, or labor
traded for goods. This approach has the advantage of
providing transparency in the exchange process. In the
context of barter-based economies, money is relegated to
a relatively small role. Obviously, money existed before
capitalism—the Romans, for example, had vast quantities
of coins—but under market-based societies money
assumed a new level of importance. As the cash system
29
replaced barter, money became standardized and ubiquitous as a measure of value. The time, space, and labor
were measured in monetary terms, so that even human life
came to have a financial value. Wealth and power were
increasingly defined along monetary lines, that is, economically rather than politically. Many traditional social roles
that were defined by kinship, religion, friendship, and
trust became depersonalized and formalized as they were
mediated by money. Money thus acquired important social
and political as well as economic roles. For this reason, we
must see money as a social product, that is, it cannot exist
or have meaning outside of society.
The organization and control of money became an
industry in its own right in the emerging capitalist system.
Large, complex societies cannot function without wellestablished financial systems, which not only reflect
systems of production but also shape them. The turnover
rate of money—the pace with which it changes hands—is
important to the process of capital accumulation. Banking
arose primarily among the goldsmiths of feudal Europe,
who stored gold for their customers and then loaned it out
to borrowers, for a price (interest). By the seventeenth
century, commercial credit became widespread, and with
it, came different types of banks and insurance firms.
Starting with small savers who pooled their funds to purchase ships to trade with Asia, joint stock companies, the
nucleus of modern stock markets, spread the risks of large
investments over many small investors. Accounting became an important profession. By the nineteenth century,
financial systems were increasingly regulated by the state
through central banks, which sought to control money
supplies and thus interest, inflation, and exchange rates
(Chapter 8). Modern banking has become a huge and
complex industry linking savers and borrowers of different
types and with different needs.
Territorial and Geographic Changes
If capitalism fundamentally changed the rules of societies,
it also reshaped how they were organized geographically.
Because capitalism is overwhelmingly the most significant
economic and political system worldwide, economic
geography is primarily the analysis of how capitalism
produces landscapes. Not surprisingly, the geographies
of capitalism are unique to the logic of profit-maximizing
societies.
An idea shared by many economic geographers is that
capitalism creates uneven spatial development, that is,
varying levels of economic growth, wealth, and poverty in
different locations. Uneven development is reflected in the
simultaneous existence and interaction of rich and poor
places, those with high and low unemployment and regions and countries with happy, prosperous residents and
those with large numbers of impoverished, hungry ones.
Those who believe in neoclassical economics (the mainstream economics taught in the United States) often hold
that uneven development is a temporary phenomenon that
markets eliminate in due course. Others, working from the
30
The World Economy: Geography, Business, Development
Africa. Prior to colonialism, Europe was poor and backward compared to competing regions; by the sixteenth
century, when colonialism was undertaken in earnest,
Europe had begun to surpass many other regions of the
planet. Thus, early globalization had highly uneven
impacts—positive and negative—on different parts of the
world.
Within Europe, capitalism unleashed a division between the relatively prosperous northwestern region and a
comparatively poorer southern and eastern region.
Historically, southern Europe, including Greece, Italy, and
Spain, had been the wealthiest and most powerful region.
With the ascendancy of capitalism, particularly in the form
of the Industrial Revolution in the late eighteenth and
nineteenth centuries, however, northwestern Europe became much more advanced economically, particularly following the defeat of Napoleon in 1815 (Figure 2.9). To this
day, the societies of Western Europe remain wealthier than
those elsewhere on that continent.
viewpoint of political economy, believe there are several
mechanisms through which uneven development occurs,
but the most significant is that of capital investment and
disinvestment. As capital seeks out the highest rate of profit, it flows into some regions and out of others, in the
process simultaneously creating prosperous places (e.g.,
New York City) and abandoning others to economic
decline (e.g., Detroit). In this light, wealthy regions and
poverty-stricken ones are intimately connected—two sides
of the same coin. The creation of uneven development,
which we will explore at greater depth throughout this
book, occurs at different spatial scales.
At the global level, capitalism, through the mechanism
of colonialism, created a worldwide system of commodity
production and consumption, with Europe at the center
and its colonies on the periphery, a process we will examine in more detail shortly. Essentially, Europe became
wealthy, in part due to its extraction of cheap raw
materials from its colonies in Latin America, Asia, and
Finland
(Rus.)
EUROPE 1815
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FIGURE 2.9 Europe in 1815, at the end of the Napoleonic wars. The turbulence in Europe after the French Revolution of 1789 saw
the nation-state emerge as the primary political entity on the continent.
Chapter 2 • The Historical Development of Capitalism
Within the individual countries of Europe, as well as
within other emerging nation-states dominated by capitalism, there arose a division in wealth between cities and
the countryside. Feudal Europe, with its tiny cities, had a
relatively small urban-rural schism and there were relatively
few differences in standards of living between urban and
rural areas. Under capitalism, as rural areas were reshaped
by waves of enclosures of farmland and the commodification of agriculture in the form of cash crops, large numbers
of people migrated to the urban areas, which became
wealthier. Port cities in particular thrived, given the maritime
basis of the world economy. Today, almost everywhere,
cities have higher incomes, more jobs, and more opportunities than do rural areas.
Finally, within capitalist cities, urban land, like labor,
became a commodity, organized through land markets
(see Chapter 10). In the process, profit became the mechanism for establishing different uses of land, including
separating home and work, areas of production and social
reproduction. Gradually, as cities grew larger, particularly
under the Industrial Revolution in the nineteenth century,
the distances between home and work were stretched to
the point where workers engaged in mass commuting. Thus,
an intraurban division of labor complemented the division
between cities and the countryside.
The key for the economic geographer is to see all of
these scales as different versions of the same process (i.e.,
uneven development manifested at the global, continental,
national, and local scales).
Long-Distance Trade
The ability to buy and sell goods over long distances is a
fundamental part of capitalist societies. Trade reflects the
geographic organization of exchange, linking producers
and consumers who generally never see one another. As
capitalism took hold and became entrenched across the
European continent, trade networks proliferated in diversity
and extent. Of course, there was trade prior to capitalism.
In feudal Europe, trade with the Muslim world, and via the
Silk Road, with East and South Asia, allowed the influx of
many goods that Europeans did not produce for themselves. Indeed, Europe was the western terminus of a
much larger fourteenth-century trading system that
stretched across the Middle East, India, and into Southeast
Asia and China (see Figure 2.4). Yet prior to capitalism,
trade was largely confined to luxury goods, such as
spices, silks, porcelain, and precious metals. Only aristocrats who had the means to purchase such luxuries were
the consumers.
If long-distance trade was peripheral to feudalism—
those societies could have survived without such goods—
it is central to capitalism. In market-based societies, trade
occurs in all sorts of goods, from luxuries to those for
everyday use. The expansion of trade networks was the
major incentive for the formation of networks of land and
sea routes that tied different parts of Europe together and
tied the continent to the rest of the world. Within Europe,
31
a vast expansion in roads, canals, and, somewhat later,
railroads was undertaken in the sixteenth, seventeenth,
and eighteenth centuries that stitched places together into
an increasingly interdependent spatial division of labor.
The increased speed with which people, capital, goods,
and information circulated is commonly called time-space
compression (Chapter 9). New ships allowed Europeans to
sail long distances relatively quickly, and in the process
they created new maps and charts for navigation, learning
the behavior of winds and currents all over the planet.
If trade reflects differences among places in the nature
of production, it also helps to shape those places. In economics and economic geography, this idea is reflected in
the concept of comparative advantage (Chapter 12), the
specialization of production that occurs when places begin
to trade extensively with one another. The growth of longdistance trade within Europe, and between Europe and its
colonies, increased competitive pressures on local producers
and helped to fuel declines in production costs and associated increases in standards of living. By the seventeenth
century, for example, an upper-middle-class family in
Britain could purchase salted cod from Newfoundland, furs
from Russia, timber from Scandinavia, wines from France,
blown glass from what is now the Czech Republic, and
olive oil and citrus from Spain or Greece. In short, capitalist
trade relations made consumers better off as countries
became increasingly interdependent on one another.
New Ideologies
Capitalism, it should be emphasized, is not simply an economic, political, cultural, or geographic set of relations—it
is all of these simultaneously. Just as feudalism consisted
of multiple dimensions, including the ideological dimension of religion, so too does capitalism exist both in the
economy and in the domains of culture and ideology.
Market-based systems reflected the ways in which people
were organized and interrelated, but they also were
reflected in how people perceived the world. The emergence of capitalism brought with it a vast panoply of ideological changes that revolutionized the ideas, science, and
culture of the modern world.
After its invention in 1450, the printing press made the
production of books easier, faster, and cheaper (Figure
2.10). Of course, Europeans were acquainted with printed
textiles, money, and playing cards long before they encountered printed books. And the paper used to produce
handwritten copies of books and manuscripts had been
imported into Europe by Arab merchants in Spain during
the tenth century, who in turn acquired it from China in
the eighth century. From Spain, paper spread to Sicily and
Italy in the eleventh century, and to France in the twelfth
century. Printing had a huge impact on the societies of
Europe. It allowed large quantities of materials to be produced cheaply and distributed quickly, and the effects of
this revolution, in conjunction with the numerous other
massive changes criss-crossing the face of Europe, were
monumental.
The World Economy: Geography, Business, Development
FIGURE 2.10 Guttenburg’s invention of the printing press in 1450,
using the Chinese innovation of movable type, revolutionized the
way in which ideas could circulate through late medieval and early
capitalist Europe. It is no coincidence that the cheap books made
possible by the printing press played a big role in the European
Enlightenment of the seventeenth and eighteenth centuries.
The new communications environment made possible
by the printing press accelerated the decline of the feudal
order by destabilizing traditional society. Printing brought
literacy to adults—especially males, for female literacy
lagged far behind—who now had more ready access to
texts. The first major step in the mechanization of communication, printing accelerated the diffusion of information by
packaging it conveniently, democratizing books in much
the same manner that cheap clocks and maps democratized
FIGURE 2.11 Europe in the seventeenth
century was gripped by severe religious wars
following the Protestant Reformation. The
rise of Protestantism in northern and
northwestern Europe—the second great
schism in Christianity—stressed individualism,
one of several lines of thought that comprised
the new ideological universe of emerging
capitalism.
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time and space, respectively, widening access for the literate
to people, places, and events far removed from them historically or geographically. Similarly, printing undermined the
centrality of the clergy in the production of knowledge, and
unlike handwritten monastic copies, printed books gave
their audiences identical copies to read, experience, and
discuss; it made censorship more difficult as well. By helping to break the monopoly on learning held by monasteries
and universities, printing encouraged the growth of a lay
intelligentsia. The technology therefore did much to enlarge
the domain of the “political.” Ideas of many sorts began
to circulate around the continent, and larger numbers of
people learned to read and write. Printing and rising rates
of literacy facilitated the Italian Renaissance, the Protestant
Reformation, European expansionism, and the rise of
modern capitalism and science.
In the sixteenth and seventeenth centuries, starting in
Italy, Europe witnessed the explosion of artistic and scientific knowledge known as the Renaissance (a term not
coined until the nineteenth century). Leading Italian
scholars such as Leonardo da Vinci exemplified the rise of
secular knowledge, as did Erasmus and the Humanists in
northern Europe. Although most of the intellectuals of the
Renaissance were religious, the movement marked a dramatic shift from the god-centered view prevalent under
feudalism to one that increasingly emphasized the role of
human beings in the making of the world.
The sixteenth century also witnessed the Protestant
Reformation, the second great schism in Christianity (the
first being the division between the Catholic and Orthodox
branches around the year 1000) (Figure 2.11). Beginning
with Martin Luther in Germany, Protestantism offered a
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Chapter 2 • The Historical Development of Capitalism
different view of life and god than that of Catholicism. In
particular, Protestantism emphasized the role of the individual and the individual’s direct relation to god, bypassing
priests as intermediaries between individuals and god.
Protestantism was one facet of a much broader growth of
individualism in different social spheres and spread with the
growth of literacy in the aftermath of the printing press. The
famous sociologist Max Weber, who studied the relationship
between Protestantism and the development of industrial
capitalism in northwest Europe, argued that the “Protestant
ethic,” which stressed delayed gratification, savings, and
material success as a sign of god’s grace and one’s potential
entry into heaven, was instrumental in the development of
capitalism. He held that Protestantism elevated work to the
status of a moral obligation, making profit a reward rather
than a sin, paving the way for capital accumulation. This
perspective has been challenged by those who maintain
that Protestantism followed in the wake of market relations
rather than causing them, or that at least Protestantism and
capitalism co-evolved. Others note that the origins of capitalism in Catholic Italy undermine the claim that it began in
predominantly Protestant northern Europe.
Science in the sixteenth and seventeenth centuries
played a critical role in restructuring how people viewed the
world and their place in it. The Copernican revolution,
augmented by Galileo, led to a heliocentric view of the
universe rather than the older, Aristotelian geocentric one,
which placed the earth in the center (Figure 2.12), a shift that
accentuated the gradually emerging secularism of the time.
Modern science emerged as scientists like Francis Bacon,
Isaac Newton, Boyle, Pascal, Linnaeus, and Lavoisier made
enormous contributions to physics, astronomy, and chemistry and their applications to gravity, optics, and other fields.
By the seventeenth, eighteenth, and nineteenth centuries,
Western societies were undergoing the Enlightenment,
an important explosion of scientific knowledge and secular
political thought. In Britain, France, Germany, and elsewhere, advances were made in geology, chemistry, physics,
and biology, including the discovery of atoms, electromagnetism, and bacteria, leading to the germ theory of disease.
The publication of On the Origin of Species by Charles
Darwin in 1859 revolutionized our understanding of evolution and ecosystems. These discoveries demystified nature
by subjecting it to scientific law, a process that was accelerated by the proliferation of institutions of higher learning
and academic societies. A gradual, widespread secularization of culture was underway. In political thought, theorists
such as John Locke, David Hume, and Adam Smith developed a worldview that stressed secularism, individualism,
rationality, progress, and democracy. Indeed, democracy,
articulated by Thomas Jefferson among others, may be seen
as a largely American contribution to the Enlightenment.
The Nation-State
Capitalism is not simply an economic system for organizing the production and consumption of resources through
markets; it is also a political system that involves the state,
33
Uranus
Saturnus
Jupiter
Mars
Terra
Venus
rcurius
Me
Sol
FIGURE 2.12 The heliocentric Copernican universe, as distinct
from the older, Aristotelian geocentric one, formed an important
component in the increasingly secularized view of nature that
accompanied the scientific and political revolutions of early
modernity. Note that the shift from a geocentric to heliocentric
perspective on the universe caused an enormous intellectual and
political uproar.
that is, governments and governance. Thus, the emergence of capitalism witnessed a series of political changes
that accompanied the rise of market-based societies. One
of the most important of these was the rise to prominence
of the nation-state.
A nation is a group of people who share a common
culture, language, history, and territory, often manifested
in a common ethnic identity. Feudal empires had many
nations within their borders. The Holy Roman Empire
(Figure 2.13) and the Austro-Hungarian Empire, for example, contained dozens of different ethnicities. Individual
and collective identity was largely defined in religious
terms (e.g., “Christiandom”), ancestral lineage, or as allegiance to a particular king. By the eighteenth century,
however, as these empires began to disintegrate, many
peoples had increasingly come to identify with a nation.
Nationalism is a term generally used to describe either the
attachment of people to a particular nation or a political
movement by groups to achieve statehood (or national
self-determination). As the state became the primary locus
of sovereignty in the eighteenth and nineteenth centuries,
it became increasingly important for ruling elites to construct
a narrative that provided the often culturally heterogeneous populations that inhabited the territory of the state
with a single identity. The nation and the state thus came
to merge via the impetus of nationalism, self-determination,
and sovereignty. But even the most classic, textbook examples of the nation-state lacked homogeneous ethnicity,
such as France, which had different ethnic, linguistic, and
The World Economy: Geography, Business, Development
34
religious minorities, including, for example, French Basques,
Bretons, and Corsicans.
As national and ethnic identities displaced older feudal
ones, the political geography of Europe was steadily redefined along ethnic lines. Key events like the Peace of
Westphalia in 1648 effectively put an end to the Holy
Roman Empire and legitimated the nation-state as the primary unit of international law and relations (Figure 2.14).
The concluding document to the Thirty Years’ War
(1618–1648), the Peace of Westphalia (recognized as the
first “modern” international treaty) guaranteed the independence of the Netherlands and Portugal and allowed
the individual states comprising the Holy Roman Empire to
choose their own religion, a power that had been usurped
by the Holy Roman Emperor. The treaty ensured a state’s
inalienable right to universal authority, particularly the use
of force within its boundaries, and the recognition of such
authority and boundaries by the international community.
Indeed, the modern world system of nation-states, with
clear, sacrosanct borders, is essentially Westphalian in
nature (although now being challenged by globalization).
The French Revolution of 1789 was another major
turning point in the breakdown of the old, feudal social
order and the rise of the new, modern one, creating new
forms of political identity—citizen, for example. The
Napoleonic wars that ended in 1815 likewise laid much of
the geographic basis for the nation-states of the continent.
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Tübingen
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Danube R.
Spanish
Hapsburg
Linz
Graz
Po R.
Ad
ic
200 MILES
t
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100
ria
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Se
a
FIGURE 2.13 The Holy Roman Empire in 1600 was characteristic of
the ethnically diverse states of medieval Europe. Although it was
centered in Germany, at various times it included parts of what are
today France, Italy, Austria, Poland, and other places. This social
formation exemplifies how ethnicity was not a primary unit of
political identity until the emergence of the nation-state.
Spanish
dominions
NORWAY
0
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Austrian
dominions
SCOTLAND
BrandenburgPrussia
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Holy Roman
Empire
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IRELAND
Swedish
dominions
200
200
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ENGLAND
DUTCH
NETH.
London
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NETH.
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Paris
POLAND
Berlin
WESTPHALIA
SAXONY
SIL
ES
IA
Prague
LORRAINE
ALSACE
OCEAN
FRANCE
BOHEMIA
Vienna
AUSTRIA
HUNGARY
BAVARIA
SWISS
FED.
PO
Black Sea
SPAIN
PAPAL
STATES
CORSICA
Rome
SARDINIA
Naples
O
RT
UG
AL
Milan
T
T
O
M
Istanbul
AN
EM
PI
RE
Mediterranean Sea
SICILY
CRETE
FIGURE 2.14 Signed in 1648, the Treaty of Westphalia not only set the boundaries among the nation-states of early modern Europe, it
also legitimized the nation-state, and the principle of noninterference, in international politics. The emerging geography of capitalism
was as much political as economic in nature.
Chapter 2 • The Historical Development of Capitalism
In Western Europe, the centralized monarchies of feudalism were gradually replaced by constitutional republics; in
Eastern Europe, this did not occur until after World War I.
By the twentieth century, the nation-state had become securely entrenched as the dominant form of political organization throughout the world, including in many former
European colonies.
The emergence of market societies facilitated the
growth of nation-states in several ways. Rising wealth,
mass literacy, growing cadres of the intelligentsia, and political parties that demanded a role in the newly democratic societies were all part of this process. Other institutions
were also important, such as national banks and currency,
a military draft, the media, and national rail systems, which
tied together the diverse parts of the emerging nationstates and reinforced their sense of being a community of
like-minded people. Thus, capitalism is not simply a system that produced markets; it made both states and markets. But looked at another way, the new nation-states also
facilitated the establishment of markets, including, for example, the construction of public infrastructure, the provision of public services (e.g., schools, transportation), the
establishment of national monetary supplies, and the protection of domestic producers from foreign competition.
These relations have led some social scientists to discard
the conventional view that markets were born free of the
shackles of the state in favor of the idea that markets
required the state to survive.
It is important to remember that capitalism long preceded the nation-state and that there is no necessary correspondence between the two, which is an observation with important implications in the current age of globalization.
Capitalism began in the city-states of northern Italy in the
fifteenth and sixteenth centuries, not in the nation-state,
which is largely a product of eighteenth- and nineteenthcentury industrialization. The ascendancy of the nation-state
marked an expansion of the scale upon which capitalist
social relations were to be managed, including trade and
production networks. Capitalism thus brought about a
national scope of operations at the same time as it did the international. Indeed, the political geography of capitalism has
become the interstate system, at whatever scale, which is a
complex of intersections between economic and political
relations.
THE INDUSTRIAL REVOLUTION
Capitalism has been a dynamic force since its inception.
The growth and development of market-based societies
was, by historical standards, very rapid. During the
Industrial Revolution in the eighteenth and nineteenth
centuries, the pace of change accelerated greatly. It would
ultimately become a normal feature of the modern world.
It is worth emphasizing that the Industrial Revolution occurred long after capitalism began; indeed, for most of its
history, capitalism involved preindustrial forms of production, including labor-intensive artisanal and household
manufacture in the period known as mercantilism.
35
Beginning in the mid-1800s, however, the speed and output of capitalist production in Europe, North America, and
Japan exploded, transforming the worlds of work, everyday life, and the global economy. Somewhat later, in the
twentieth century, industrialization spread to Eastern
Europe and the Soviet Union; since the 1970s, it has
spread to the newly industrializing countries in selected
parts of the developing world (Chapter 7).
Industrialization is a complex process that involves
multiple transformations in inputs, outputs, and technologies. The three dimensions that are particularly important
here are discussed next.
Inanimate Energy
Preindustrial societies relied upon animate sources of
energy (i.e., human and animal muscle power) to get
things done. Industrialization can be defined loosely as the
harnessing of inanimate sources of energy, a major
milestone in human economic evolution. Historically, several types of inanimate energy have been tapped. The first
involved running water, or water in a particular stage of
the hydrolic cycle when it is moving overland from higher
to lower elevations. This source of energy had been used
in the late Middle Ages to grind corn and flour. By the
early eighteenth century, some producers of textiles began
to use water-powered mills to run their machines, and it
was a major source of energy in the earliest stages of the
Industrial Revolution. Many textile plants in southern New
England, for example, used this strategy. But it constrained
firms to locating near streams and rivers. Many streams are
annual, meaning they may dry up in the summer if there
has been insufficient rainfall in their catchment area. Also,
locating on a stream might put the producer inconveniently far away from the market.
A more efficient source of inanimate energy involved
coal and the steam engine, the designs for which were laid
out by Thomas Newcomen in 1712 (Figure 2.15). The first
operating steam engine was built by the Scottish engineer
James Watt in 1769; it marked a turning point in the
process of industrialization. The steam engine, originally
designed to pump seawater out of coal mine shafts that
penetrated under the ocean, used relatively cheap and
abundant fuels and could do the work of dozens of men
far more efficiently. This invention required heating water
into steam in order to drive the engine’s pistons, and wood
was the first major source of fuel. Producers began to cut
down forests in Britain in large numbers, deforesting much
of the country, wood supplies began to dwindle, and the
rising cost eroded profits.
As wood became scarce, producers switched to coal,
which could be mined in large quantities. Thus, as Britain
industrialized, several areas became major coal-producing
centers, including Wales and Newcastle. As the Industrial
Revolution spread across the face of Europe, the large coal
deposits of the northern European lowlands—northern
France, Belgium, the Ruhr region in Germany, and Silesia
in southern Poland and the Czech Republic—became
increasingly important, exemplifying one of the themes
36
The World Economy: Geography, Business, Development
FIGURE 2.15 The steam engine, designed by Thomas
Newcomen in 1712 but first built by James Watt in 1769,
was the key invention of the Industrial Revolution. It
was the first device to harness inanimate energy on a
mass basis and revolutionized both production and
transportation for two centuries.
introduced in Chapter 1: how nature helps to shape the
formation of geographies. In the United States as well, coal
deposits in Appalachia played a key role in the industrialization of the nation.
In the nineteenth century, coal was joined by other
fossil fuels, particularly petroleum, and to a lesser extent
natural gas (Chapter 4). The abundance of cheap energy
was the lifeblood of industrialization, and production
processes became increasingly energy-intensive as a result.
This substitution of inanimate for animate energy both freed
tens of millions of people from drudgery and allowed for
large numbers to live relatively comfortable lives in the expanding middle class that industrialization brought about.
Technological Innovation
As we have seen, capitalism is a very dynamic economic
system. Firms, under the lure of profits and threat of ruin,
engage in frequent innovation as a way to reduce costs
and increase revenues. New technologies certainly
emerged prior to industrialization, but the Industrial
Revolution witnessed an explosive jump in the number, di-
Slaves
Domestic animals
versity, and applications of new technologies (Table 2.1).
A technology is a means of converting inputs to outputs.
These can range from extremely simple to sophisticated.
An otter using a rock to open an oyster is employing a
technology, as you are when you use a pen or a computer.
The increasingly sophisticated division of labor under
industrialization rapidly led to opportunities for new
inventions. These were employed in agriculture, in manufacturing, in transportation and communications, and in
services. Figure 2.16 illustrates a variety of technologies
that accompanied the long-term increases in productivity
in transportation and production.
A major reorganization in the nature of work occurred
in the Industrial Revolution with the development of the
factory system. Prior to this era, industrial work was organized on a small-scale basis, including home-based work.
The early textile industry, for example, used the “putting
out” system of independent workers and contractors. By
the late eighteenth century, however, firms in different industries were grouping large numbers of workers together
under one roof. Some of the largest factories held thousands of workers. This process effectively created the
Windmills/water wheels
Steamship
FIGURE 2.16 Throughout human history, increasing technological sophistication has been tied to the development of energy resources.
Chapter 2 • The Historical Development of Capitalism
TABLE 2.1 Some Major Innovations of the Industrial
Revolution
1708
1712
1758
1765
1787
1793
1807
1828
1831
1834
1839
1844
1846
1849
1850
1851
1857
1859
1866
1867
1873
1876
1877
1878
1879
1884
1886
1888
1892
1895
1896
1899
1900
1903
1906
1925
Mechanical seed sower
Steam engine
Threshing machine
Spinning jenny
Power loom
Cotton gin
Steamboat
Railroad
Electric generator
Reaper
Photography, vulcanized rubber
Telegraph
Pneumatic tire
Reinforced concrete
Refined gasoline
Refrigeration; sewing machine
Pasteurization
Gasoline engine
Open hearth furnace
Dynamite
Typewriter
Telephone
Phonograph
Microphone
Electric light bulb
Rayon
Hydroelectric power plant
Camera; radio waves
Diesel engine
X-rays
Wireless telegraphy
Aspirin
Zeppelin
Airplane
Vacuum tube
Television
industrial working class. Never before in human history
had so many workers been concentrated on a permanent
basis, a feature that changed how they lived and viewed
each other—and themselves. Inside factories, workers
used vast amounts of capital (i.e., many types of machines),
that is, work became much more capital-intensive. The introduction of interchangeable parts, a concept invented by
American gun maker Eli Whitney, made machines more
reliable and easier to fix. In the early twentieth century,
Henry Ford introduced the moving conveyor belt, which
further accelerated the tempo of work and the ability of
workers to produce.
Productivity Increases
As a consequence of the massive technological changes of
the Industrial Revolution, productivity levels surged.
Productivity refers to the level of output generated by a
given volume of inputs; productivity increases refer to
higher levels of efficiency, that is, greater levels of output
per unit of input (e.g., labor hour or unit of land), or, conversely, fewer inputs per unit of output.
As Figure 2.17 indicates, productivity levels rose exponentially in the nineteenth century. This process had several important repercussions. As the cost of producing
goods declined, standards of living rose. Most workers labored long hours under horrific conditions and endured
standards of living still quite low compared to those we
enjoy today. But nonetheless, over several decades, industrialization saw many kinds of goods become increasingly
affordable. Because wage rates have been linked historically to the productivity of labor, the working class gradually became better off. Clothing, for example, which was
scarce before the Industrial Revolution, became relatively
cheap and ceased to be as accurate an indicator of class
status as it had been previously.
The industrialization of agriculture was most important
in this regard. As machine after machine was introduced
into farming, including mechanical reapers, harvesters,
threshers, and tractors, food became progressively cheaper
and diets improved; more people ate more and better
food than ever before. With the notorious exception of the
Irish Potato Famine of the 1840s, hunger and malnutrition
Turbine engine
Gasoline engine
Steam locomotive
Automobile
37
Nuclear power
The World Economy: Geography, Business, Development
gradually declined throughout Europe, although they did
appear in the aftermath of wars. As diets improved, so did
resistance to disease, and life expectancies rose as well.
The Geography of the Industrial Revolution
Like all major social processes, the Industrial Revolution
unfolded very unevenly over time and space. Whereas
capitalism had its origins in Italy, industrialization was very
much a product of northwestern Europe. Some scholars
locate the first textile factories in Belgium, in cities such as
Liege and Flanders. However, without question it was
Britain that became the world’s first industrialized nation.
By the end of the eighteenth century, Britain stood virtually
alone as the world’s only industrial economy, a fact that
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1865 1870 1875 1880 18851890 1895 1900
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I II I
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1865 1870 1875 1880 18851890 1895 1900
Newcastle upon Tyne
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Percent Change, General
Price Level Index
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Percent Change, U.S. Manufacturing
Production Index
500
gave it an enormous advantage over its rivals. For example, Britain’s industrial base allowed it to triumph over
France in their eighteenth-century rivalry for global hegemony and to flood its competitors’ markets with cheap textiles. Cities in the Midlands of Britain, such as Leeds and
Manchester, centers of the British textile and metal-working
industries (Figure 2.18), were known as the workhouses of
the world for their high concentrations of workers, capital,
and output. Given the lack of government regulation over
labor practices, the use of brutally exploitative child labor
was common (Figure 2.19). Others, such as London,
Glasgow, and Liverpool, became centers of ship building,
which, in a maritime-based world economy, was a major
industry in its own right. In many cities, networks of producers of guns, watches, shoes, metals, and light industry
formed dense industrial districts of small firms with intricate
linkages of inputs and outputs.
Why Britain? There are no simple answers to this
question. Britain had already enjoyed a network of longdistance trade relations with its colonies in North America
and elsewhere. Agriculture in Britain was well advanced in
I
38
I
I
English Channel
50°
FIGURE 2.17 Manufacturing productivity in the United States
rose exponentially in the latter part of the nineteenth century.
After the Civil War, the Industrial Revolution began in earnest.
As productivity increased, the prices of goods dropped accordingly,
and standards of living rose. Geographically, this period saw the
emergence of the Manufacturing Belt along the southern shores
of the Great Lakes.
5°
FIGURE 2.18 Britain’s industrial areas, the sources of the Industrial
Revolution. Coal from Wales and Newcastle fueled the development
of the factory system, particularly in the Midlands cities such as
Manchester, Sheffield, Birmingham, Leeds, and Liverpool.
Chapter 2 • The Historical Development of Capitalism
A half-century after it began in Britain, the Industrial
Revolution diffused over the European continent during
the nineteenth century (Figure 2.20). In France, industrial
complexes formed on the lower Seine River and in Paris.
In Italy, the Po River valley became a major producer of
textiles and shoes. In Scandinavia, cities such as Stockholm
became major ship-building centers. In Germany, which
was relatively late to industrialize (following its unification
in 1871), the Ruhr region became a global center of steel,
automobile, and petrochemical firms. By the early nineteenth century, the revolution also began to spread worldwide (Figure 2.21), leapfrogging across the Atlantic and
igniting the industrialization of southern New England,
and in the 1870s, spreading to Japan, which became the
first non-Western country to join the club of industrialized
nations as the old feudal order there collapsed following
the Meiji Restoration of 1868. Russia, which flirted with
industrialization under Peter the Great, did not become
fully industrialized until the 1920s, when the Soviet Union
under Stalin leaped forward to become the world’s secondlargest economy in the span of a decade. In the twentieth
century, the process of industrialization spread to many
developing countries, particularly in East Asia, where it has
had profound consequences for millions of people.
In a sense, then, the industrialization of the developing
world, which is still partial and incomplete, is a continuation of a long-standing historical process. Although the
process changed over the years, its broad outlines have
remained the same. The industrial complexes formed by
the diffusion of the Industrial Revolution remain highly
important to the global economy today; we discuss them in
more detail in Chapter 7.
FIGURE 2.19 The use of children as workers was common during
the Industrial Revolution, and persisted until the implementation
of child labor laws in the l9th and early 20th centuries. Similar
conditions apply to many children in the developing world today.
the process of commodification compared to the European
continent. And Britain enjoyed large deposits of coal and
was the locale where the steam engine was invented.
60°
0°
10°W
N
20°E
0
ATLANTIC
OCEAN
150
300 MILES
Se
a
0 150 300 KILOMETERS
ic
North Sea
Ba
lt
Manchester
Berlin
50°N
London
RUHR
1850
Paris
1870
40°N
Black
Sea
Milan
14
19
Mediterranean
Sea
39
Principal industrial regions
Direction of spread
FIGURE 2.20 Spread of the Industrial
Revolution across the European continent.
Well after Britain had industrialized, the new
form of manufacturing led to the formation of
industrial complexes in France, then later in
Germany and Italy.
The World Economy: Geography, Business, Development
40
80°
80°
ARCTIC
OCEAN
Place of origin
(ca. 1725)
–
30
18
1860
1790–
60
18
1940–1960
30
0–19
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Tropic of Cancer
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ATLANTIC
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40°
0
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1,500
1,500
3,000 MILES
3,000 KILOMETERS
60°
Antarctic Circle
FIGURE 2.21 The global diffusion of the Industrial Revolution. By the early nineteenth century, the process had become entrenched
in New England and later took root across the rest of North America. Japan emerged from a long period of isolation in 1868 and
became the first non-Western industrial power shortly thereafter. Eastern Europe lagged well behind Western Europe, and Russia
industrialized only in the 1920s under the Stalinist government in the Soviet Union. The newly industrialized countries (NICs) of East
Asia started the process in the 1960s, and it continues today in selected parts of the developing world.
Cycles of Industrialization
Just as the process of industrialization occurs in different
places at different times, so too did the nature and form of
industrialization vary in successive historical periods. As
we shall see in more detail in Chapter 5, capitalism is
prone to long-term cyclical shifts in its industries, products, labor markets, and geographies, a concept often
referred to as Kondratiev waves of roughly 50 to 75 years’
duration (Figure 2.22). For our purposes, this means that
industrialization saw the rise of different industries at different times. Industrialization was thus not one process but
a series of them that varied over time and space.
The first wave of the Industrial Revolution (1770s–
1820s) centered on the textile industry (Figure 2.23). In
Britain, as in the rest of Europe, North America, Japan, and
the developing world today, textiles have always led
Indices of Economic Activity
Major New
Technologies
1775
Steam power
cotton textiles
iron
Railways
iron & steel
”First
Kondratiev“
”Second
Kondratiev“
1800
1825
1850
1875
Electricity
chemicals
automobiles
Electronics
synthetic materials
petrochemicals
Information
Technology
”Third
Kondratiev“
”Fourth
”Fifth
Kondratiev“ Kondratiev“
1900
1950
1925
1975
2000
FIGURE 2.22 Long waves of economic
activity, named after their discoverer,
Kondratiev. The historical development
of capitalism is often organized into four
such waves, each of which was centered
around a different technology. The textile
industry dominated the first, from the
late eighteenth to the early nineteenth
centuries. The second wave, lasting
roughly from 1820 to 1880, saw the
widespread application of steam power,
including the railroad and the steamship.
The third, from about 1880 to 1930,
witnessed the growth of heavy industry,
particularly steel making and the
automobile, and ended in the Great
Depression of the 1930s. The fourth,
which began in earnest after World War II,
saw the rapid growth of petrochemicals
and aerospace. Many argue that we are
living in a fifth wave that began in the
1980s, propelled by electronics and
business services.
Chapter 2 • The Historical Development of Capitalism
FIGURE 2.23 A factory during the Industrial Revolution. This
photograph illustrates the exploitative labor relations that
accompanied and underpinned the growth of modern capitalism,
including the frequent use of child labor.
industrialization. Easy to enter, with few requirements of
capital or labor skills, this sector initiated the industrial
landscapes of most of the world. Because this wave was first
centered in Britain, it catapulted that nation to prominence
as the leading economic power in the world, initiating the
period of the Pax Britannica.
The second wave, from the 1820s to the 1880s, was a
period of heavy industry. In the nineteenth century, the
most important sectors were those like ship building and
iron manufacturing. Large-scale and capital-intensive, these
types of firms differed markedly from the light industry of
textiles. They required massive capital investments, were
difficult to enter, and moved toward forming an oligopoly
rather than a competitive market. This was the period in
which the U.S. Manufacturing Belt began to form, although
most of its growth occurred after the Civil War of the
1860s.
In the third wave of industrialization, from the 1880s to
the 1930s, numerous heavy industries appeared, including
steel, rubber, glass, and automobiles. This was a period of
massive technological change, capital intensification, and
automation of work, as well as economic changes. As local
markets gave way to national markets, most sectors experienced a steady oligopolization, or concentration of output
and ownership in the hands of a few large firms. Many
companies became multiestablishment corporations. Not
surprisingly, this wave saw the rise to power of the “robber
barons”: Carnegie (steel), Rockefeller (oil), Duke (tobacco),
Dupont (chemicals), J. P. Morgan (banking), and John
Deere (agricultural machinery).
The primary growth sectors in the fourth wave of industrialization, which started during or immediately after
41
the Depression of the 1930s and lasted until the oil
shocks of the 1970s, were petrochemicals (including
plastics) and automobiles. With a relatively stable global
economy, the world system was dominated by the United
States, which produced a huge share of the planet’s
industrial output.
The electronics industry led the fifth wave of industrialization, often thought of as beginning after the oil
shocks of the 1970s. Powered by the microelectronics
revolution, and by the explosive growth of producer services (Chapter 8), this era experienced rapid productivity
growth in household electronics and information-processing
technologies.
It is important to note that during each era, the major
propulsive industry was commonly featured as the “hightech” sector of its day. Thus, just as electronics is often
celebrated at this historical moment for its innovativeness
and ability to sustain national competitiveness, so too were
the textile industry in the eighteenth century and steel
industry in the nineteenth century associated with high
levels of productivity and wages. What was a leading industry at one moment would become a lagging one in the
next historical epoch, as high-wage, high-value-added
sectors replaced low-wage ones in the world’s core and
as low-wage, low-value-added sectors dispersed to the
world’s periphery.
Consequences of the Industrial Revolution
The Industrial Revolution permanently changed the social
and spatial fabric of the world, particularly in the societies
that now form the economically developed world. No part
of their social systems, economy, technology, culture, or
everyday life was left untouched. Within a century of its
inception, industrialization changed a series of rural,
poverty-stricken societies into relatively prosperous, urbanized, and cosmopolitan ones. Some of the major changes
included those described next.
CREATION OF AN INDUSTRIAL WORKING CLASS As we
noted earlier, a significant part of industrialization was the
reorganization of work along the lines of the factory system. For the first time in human history, large numbers of
workers labored together using machines. These conditions were quite different from those facing agricultural
workers, who were dispersed over large spaces and relied
on animate sources of energy. Industrialization gave rise to
organized labor markets in which workers were paid by
the hour, day, or week.
In short, as firms created a new form of labor, they
created a new form of laborer, a proletariat, or industrial
working class, which became socialized according to the
new conditions of work. This process was not easy, given
how brutally exploitative working conditions were during
this time. Workers typically labored for 10, 12, or even 14
hours per day, six days per week, for relatively low wages.
(The 8-hour day and Saturdays free from work were products of workers’ movements in the 1930s.) Often the work
42
The World Economy: Geography, Business, Development
was unsanitary and dangerous, even lethal, as workers
were subjected to accidents, poor lighting, and poor air
quality. Child labor was also common, subjecting those as
young as 4 or 5 to horrendous and exploitative conditions
like those now found in the developing world.
As a result, time—like space, and so much else—
became a commodity, something bought and sold. The
transition from agricultural time to industrial time was
important. Prior to the Industrial Revolution, people experienced time seasonally and rarely felt the need to be
conscious of it. Time was simply lived, without worry
about the precise beginnings and endings of events. With
industrialization, however, time was measured and divided
into discrete units, as signaled by the factory whistle, bell,
and stopwatch. This change marked the commodification
of time via the labor market.
Industrialization produced a working class; it also produced labor unions. The first resistance to the industrial
system arose in the early nineteenth century among the
British Luddites, named after their leader, “General” Ned
Ludd. Luddites blamed their miserable working conditions
on the machines they used and often destroyed them as a
way of halting their exploitation. In France, workers wearing
large wooden shoes, or “sabots,” jammed them into the
machinery in an act of “sabotage.” By the late nineteenth
century, labor had formed a number of powerful unions;
in the United States these included the Knights of Labor,
the American Federation of Labor, and, in the twentieth
century, the Industrial Workers of the World and the
Congress of Industrial Organizations. Industrialization thus
often led to considerable class conflict.
in cities are important. Often, this tendency is attributed to
the presence of workers in urban areas. But which came
first, firms or workers? Cities were clearly centers of capital
as much as they were centers of labor, which poses something of a “chicken or egg” problem. Yet cities were very
small when the Industrial Revolution began, but through
agricultural mechanization (which reduced rural job opportunities) and rural-to-urban migration, the urban labor
supply was created.
As Chapter 5 documents more fully, there are powerful reasons for firms to concentrate, or agglomerate, in
cities. Most firms benefit by having close proximity to
other firms, including suppliers of parts and ancillary services. Concentration allows firms to share a specialized infrastructure, information, and labor force. The cities of the
nineteenth century were composed of dense webs of industrial firms, with intricate input and output relationships
tying them together. Industrialization changed societies
from predominantly rural to predominantly urban in character. In Europe, North America, and Japan, for the first
time in history, the majority of people lived in cities. The
growth of cities in industrial societies is frequently depicted using an urbanization curve (Figure 2.24), which illustrates the percentage of people living in urban areas over
time. In the United States, for example, the first national
census of 1790 showed that 95% of Americans lived in
rural areas. This rural proportion decreased throughout the
nineteenth century, and by 1920, 50% of the nation’s population lived in cities. Today, it is roughly 85%. The pattern
is similar in every other country that has industrialized.
POPULATION EFFECTS Industrialization changed more than
URBANIZATION Geographically, the Industrial Revolution
was closely associated with the growth of cities. Almost
everywhere, industrialization and urbanization have been
virtually simultaneous. Manufacturing firms concentrated
in cities, especially large ones, such as the British Midlands
(e.g., Leeds, Manchester) or throughout the U.S.
Manufacturing Belt (e.g., Pittsburgh, Cleveland, Detroit,
Chicago, and Milwaukee). The reasons firms concentrated
100
80
Percent Urban
FIGURE 2.24 An urbanization curve expresses
the proportion of a country’s population
that lives in cities at different stages in
industrialization. Preindustrial societies are
agricultural and rural; because manufacturing
is concentrated in urban areas, industrialization
causes cities to grow more quickly than the
countryside.
simply the geographic distribution of people (i.e., concentration in cities); it also shaped growth rates and demographic composition. We shall explore in more detail how
populations change in Chapter 3, but we note here that
the Industrial Revolution unleashed drastic changes in
both the rate of growth and the health of the population.
On the eve of the Industrial Revolution, the famous theorist Thomas Malthus predicted that rapid population growth
60
40
20
0
Time (level of industrialization)
Chapter 2 • The Historical Development of Capitalism
would create widespread famine. Yet Malthus was soon
proved to be wrong, at least in the short run. The industrialization of agriculture generated productivity increases greater
than the rate of population growth, and the creation of a stable and better food supply improved most people’s diets. As
a result, life expectancy rose. Industrialization also lowered
death rates, particularly as malnutrition declined and infant
mortality rates dropped. Eventually, public health measures
and cleaner water helped to control the spread of most infectious diseases. As death rates dropped, the populations of industrializing countries increased dramatically (Figure 2.25).
Accompanying this change was a shift from the extended to
the nuclear family. Eventually, as Chapter 3 explains, industrialization also led to a decline in the birth rate, the number of
children per family, and growth rates.
These changes dramatically lowered the barriers to
trade, and the international volume of imports and exports
began to soar. Europe, starting with Britain, could import
unprocessed raw materials, including cotton, sugar, and
metal ores, and export high-value-added finished goods, a
process that generated large numbers of jobs in Europe
and contributed to a steady rise in the standard of living. It
is worth noting that classical political economists like
Adam Smith and David Ricardo began to attack the philosophy of mercantilism, which preached state protection
against imports, at precisely this historical moment.
Finally, the industrial world economy saw explosive
growth in international finance. British banks, largely concentrated in London, for example, began to expand their
activities internationally, lending to clients and investing in
markets overseas. Much of the capital that financed the
American railroad network came from Britain. The globalization of production was thus accompanied by the steady
globalization of money and credit.
The timing of industrialization was significant to different nations as well. There existed an important difference between early and late industrializers in this regard.
Early industrializers (e.g., Britain, the United States) faced
little international competition. Thus, their light industries
(i.e., textiles) associated with the first wave of industrialization could develop relatively slowly, with minimal
government intervention. Firms in sectors such as textiles—
with few barriers to entry, low infrastructural demands,
and quite competitive internationally—were important in
shaping the national political climates that were characterized by laissez-faire politics and minimal government
intervention.
GROWTH OF GLOBAL MARKETS AND INTERNATIONAL
TRADE The Industrial Revolution had an impact on the
existing global economy as well. Under capitalism, a
loose network of international trade had formed well
before the eighteenth century. Indeed, as we saw earlier,
there were extensive linkages from Europe across Eurasia
and the Indian Ocean as early as the fourteenth century.
The harnessing of inanimate energy for transportation
dramatically accelerated the speed of both land and water
transportation, significantly compressing time and space
(Chapter 9). Sailing ships and horse-drawn transport traveled at roughly 10 miles per hour (mph), for example, but
steamships could reach speeds of 40 mph and railroads
more than 65 mph. Moreover, the new, industrialized
forms of transportation were not only faster but also cheaper, resulting in cost-space convergence as well.
60°
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a
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AUSTRIA
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PORT.
40°N
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T
O M
A N
E M P I R E
SPAIN
Mediterranean
Sea
20°E
43
30°E
FIGURE 2.25 Population growth in Europe
from 1800 to 1850. The capacity of
industrialized societies to support large, dense
nucleations of people led to higher rates of
population growth and larger numbers of
people in northern Europe than in the south,
which industrialized later and less completely.
44
The World Economy: Geography, Business, Development
Case Study
Railroads and Geography
Railroads, one of the central technologies of the
Industrial Revolution, along with steamships, gave birth
to radically new urban and economic geographies.
Railroads were central to the rise of modern capitalism
and the opening up of continental interiors to rapid,
cheap, and dependable transportation. In addition to
their ability to shuttle people, railroads could move
heavy loads over long overland stretches, reducing land
transport costs by as much as 95%.
British railroads, the world’s first, began in the
early nineteenth century. In 1814, the first steam locomotive was introduced, and the British system expanded
rapidly. In 1830, the first interurban railroad connected
Liverpool and Manchester. Early railroads achieved speeds
between 20 and 30 mph, or three times that achieved by
stagecoaches; later ones achieved speeds up to 70 or 80
mph. The enormous costs of constructing and maintaining railroad networks required, however, high volumes
of traffic to amortize expenses over numerous clients.
In Russia, railroads helped to forestall a decline
into Third World status. With the opening of the Moscow–
St. Petersburg line in 1851, Russia’s railroads zoomed
from 700 total miles in 1860 to 36,000 in 1900. The first
leg of the Trans-Siberian railroad opened in 1903,
stretching 6000 miles from Moscow to Vladivostok; by
reducing journey times between Europe and Asian
Russia from months to days, it brought the vast resources of Siberia into the tsarist spatial division of labor.
Similarly, the Japanese rail system first linked Tokyo and
Yokohama in 1872, part of the rapid unification of
Japanese space following the Meiji Restoration of 1868.
In Italy, the railroad became an instrument of national
unification, a process achieved in the face of the growing economic and political ascendancy of the north at
the expense of the peninsula’s southern districts. The
French railroad system, centered, naturally, upon Paris,
soon made even the capital accessible to people throughout the nation; equally important, it made French
peripheral territories accessible to Parisian capitalists.
Within cities, too, railroads were potent in restructuring urban land markets, initiating a series of changes
in the urban rent structure that amplified some land values and eroded others. Railroads simultaneously intruded upon older cities, destroying the traditional fabric of
urban spaces and giving rise to new ones. As the commodification of urban space intensified, specialized districts of production and social reproduction materialized
apace within divisions of labor that became spatially
extended and more integrated. Outside urban areas,
railroads allowed the rhythms of the city to penetrate the
countryside. By making distant lands accessible, railroads dramatically extended the rent structures of urban
areas, commodifying land in hitherto inaccessible regions,
encouraging farmers, settlers, and planters to assault
distant, relatively untouched ecosystems.
The American rail experience paralleled that of
Britain in generating an increasingly ubiquitous transport surface across national space. Beginning with the
first line in Quincy, Massachusetts, in 1826, Boston became the country’s first rail hub, with three radial lines.
It took only 43 years to move from the first rail line in
1826 to the famous transcontinental connection of the
Union Pacific and Central Pacific lines at Promontory
Point, Utah, on May 10, 1869, that stitched together the
multitude of farms, towns, and cities stretched across
North America. Thus, distances from New York that took
6 weeks to traverse in 1830 could be crossed in 1 week
by 1857. American railroads had profound impacts on
the country’s social, urban, and economic geography,
opening the coal mining districts of Appalachia and the
meat and grain belt of the Midwest alike. The time-space
effects of the railroad system were geographically highly
uneven; the Northeast and Midwest were integrated far
more than were the Northeast and the South. Because
American labor was expensive and land was cheap—the
exact opposite of Europe—railroads in the United States
tended to curve much more around hills and valleys.
American railroads were instrumental in opening
up the vast wilderness of the continental interior, and
train travelers across the prairies compared railroads to
ships on land. The completion of national rail networks
also facilitated the specialization of individual cities,
which often benefited from comparative advantages
based on local resources, strategic locations, and contingent pools of skilled labor. Chicago in particular witnessed explosive growth in the 1840s due to its role as a
transportation hub. The accelerated speed and improved
reliability of shipments brought the Midwest steadily into
the orbit of Eastern capital. Shortly after the Civil War,
the Rocky Mountains and West Coast were incorporated
into the American space-economy, which soon thereafter became the largest in the world, surpassing Britain
in the 1890s. Far from resulting from some mythical
process of “free market” expansion, the growth of the
American railroads was actively abetted by the federal
government, including the land grants introduced
in 1850. The U.S. Interstate Commerce Act of 1887
standardized rail gauges.
One of the most significant long-term impacts of
the relational geographies that the railroad fostered was
the rise of dramatically expanded markets on the scale
of the nation-state. Prior to the Industrial Revolution,
markets were highly localized and self-sufficient and
long-distance trade was comparatively rare. In 1817, for
example, it took 52 days to ship goods from Cincinnati
to New York using wagons and rivers. Between 1830
Chapter 2 • The Historical Development of Capitalism
and 1857, most of the country was within a few days’
travel of New York City. Interregional commerce tended
to be export-oriented and controlled by merchants in
large, East Coast cities. As long as production and consumption were confined to regional markets, goods
retained the identity of their origin. Railroads, however,
allowed large-scale commercial providers to lower costs,
increase productivity, and raise profits while using the
new technologies to conquer space in ever more effective ways, expanding their operations by diminishing
geographic barriers. Within the new, larger markets,
prices tended to equalize quickly. This process generated “economies of speed” in which maximization of
throughput set the stage for the emerging industrial
regime of production. All of this was central to the
In contrast, relatively late industrializers faced a significantly different international climate, one dominated by
early industrializers. Countries such as Germany and
Japan, which did not begin industrializing until the late
nineteenth century—long after Britain and the United
States—faced significant competition in industries like textiles. Consequently, these nations tended to experience
relatively short periods in which their economies were
dominated by light industry and moved rapidly into heavier sectors. Germany, for example, developed a comparative advantage in steel, armaments, and automobiles. In
countries in which heavy industry dominates and places
significantly higher demands on the state for labor training, infrastructure, and trade protection, national political
cultures that look favorably upon state intervention are
more likely to develop. This is true of newly industrializing
countries (NICs) today (Chapter 14). Thus, the internal political culture within countries was strongly affected by the
timing of their entry into the international division of labor.
COLONIALISM: CAPITALISM
ON A WORLD SCALE
Intimately associated with the development of capitalism in
Europe was Europe’s conquest of the rest of the globe. This
process, euphemistically called the “Age of Exploration,” can
be viewed as the expansion of capitalism on a global scale.
Just as the geographies of capitalism are typified by uneven
spatial development, as noted earlier, colonialism involved
uneven development on a global scale, with Europe at the
center and its colonies on the world periphery. Many theories of world development, such as world-systems theory, incorporate this theme (Chapter 14).
Colonialism was simultaneously an economic, political, and cultural project. It was also an act of conquest, by
which a small group of European powers came to dominate a very large group of non-European societies.
Culturally, under colonialism the distinction between the
45
transition from small, isolated, localized markets to larger,
national ones, a new geographic formation that was
highly conducive to the rise of larger, capital-intensive,
vertically integrated, multiestablishment firms and oligopolies as companies internalized their commodity
chains, that is, produced many inputs for themselves
rather than purchased them from suppliers.
One of the most explicit repercussions of railroads
was the standardization of time. England, first to build
railroads, was also the first to adopt a standard railroad
time: In 1847, the British Railway Clearing House suggested that all rail stations adopt Greenwich Mean Time
(GMT), the special preserve of the Royal Observatory
located in Greenwich and founded in 1675. By 1855,
GMT became the legal standard throughout the country.
“West” and the “Rest” emerged. In conquering the “Orient”
and encountering cultures very different from their own,
Europeans discovered themselves as Westerners, often in
contrast to other people whom they represented in highly
erroneous terms.
Everywhere, colonized people fought back against
colonial rule. Examples include the Inca rebellions against
the Spanish, Zulu attacks on the Dutch Boers, the great
Indian Sepoy uprising of 1857, and the Boxer Rebellion of
1899–1901 in China. Yet Western powers, armed with guns,
ships, and cannon, effectively dominated the entire planet.
While a few countries remained nominally independent,
such as Thailand, the only one to escape colonialism substantively was Japan, which, under the Tokugawa
Shogunate, closed itself off from the world until 1867.
Colonialism had profound implications for both the
colonizers and the colonized, which is why a sophisticated
understanding of economic geography must include some
understanding of this process. Globally, colonialism produced the division between the world’s developed and
less developed countries, a theme explored in detail in
Chapter 14. Colonialism changed European states too,
strengthening the formation of capitalist social relations
and markets as well as the nation-states in Western
Europe. Prior to colonialism, Europe was a relatively poor
and powerless part of the world, compared to the Muslim
world, India, or China; afterward, Europe became the most
powerful collection of societies on the planet.
The Unevenness of Colonialism
It is important to note that colonialism did not occur in the
same way at different historical moments and in different
geographic places. Temporally, there were two major
waves of colonialism (Figure 2.26), one associated with
the preindustrial mercantile era and the other with the
Industrial Revolution. From the sixteenth century, when
colonialism began, until the early nineteenth century,
The World Economy: Geography, Business, Development
FIGURE 2.26 Waves of European
colonialism. The first major wave, lasting
from the sixteenth century until 1815, was
dominated by the Spanish and Portuguese
conquest of the New World. The
Napoleonic wars, however, weakened
Spain, and its colonies in the Americas
broke away, leading to a decline in the
total number of colonized countries. The
second wave, from 1815 until the 1960s,
was the European conquest of Africa, Asia,
and the Middle East, particularly by the
British and French. After World War II, the
colonial empires broke up and the number
of nominally independent countries in the
world increased.
200
1st Colonial Wave
410 Years
2nd Colonial Wave
143 Years
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Number of Colonies
46
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Western economic thought was characterized by mercantilism, in which state protection of private interests was
justified as necessary for the national well-being. During
this period, the largest colonial powers were Spain and
Portugal, and their primary colonies were in the New
World and parts of Africa.
Following the Napoleonic wars, which ended in the
Treaty of Vienna in 1815, European powers were relatively
weak. This provided an opportunity for nationalists in Latin
America, led by Simón Bolívar, to break away and become
independent countries. Thus, the number of colonies declined sharply in the early nineteenth century. However,
during the subsequent phase of industrialization, characterized economically by the ideology of free trade, the number of colonies grew again. This time, Britain emerged as
the world’s premier power, and along with France, colonized large parts of Africa and Asia. Finally, as Figure 2.26
illustrates, the number of colonies declined rapidly after
World War II amid the era of decolonization.
Colonialism was also uneven spatially. Different colonial empires had widely varying geographies, as illustrated
by the distribution of empires at their peak in 1914, the
eve of World War I (Figure 2.27). The British Empire,
which encompassed one-quarter of the world’s land surface, stretched across every continent of the globe, including large parts of western Africa, the Indian subcontinent,
and parts of Southeast Asia. The French ruled in parts of
western Africa and in Indochina as well as Madagascar.
The Portuguese had Brazil, chunks of Africa such as
Angola and Mozambique, Goa in India, parts of Indonesia
such as Timor, and Chinese Macau. The Belgians possessed Congo, the private holdings of Leopold II. Portugal
retained control over vast swaths of Africa. Italy was in
Libya and Ethiopia. Even Germany, late to unify and to industrialize, controlled parts of Africa (Togo, Namibia,
Tanganyika) and New Guinea.
How Did the West Do It?
What allowed Europe to conquer the rest of the planet?
The answers to this question are not simple. Obviously,
they do not lie in any innate superiority of Europeans.
Indeed, for much of history, Europe was relatively weaker
and poorer than the countries it conquered. By the sixteenth century, however, Europe did come to possess several technological and military advantages over its rivals.
Jared Diamond (1999), in his Pulitzer–prize-winning
book Guns, Germs, and Steel, maintains that Western societies enjoyed a long series of advantages by virtue of geographical accident. Agriculture in the West, centered on
wheat, was productive and could sustain large, dense populations. Old World societies were often stretched across
vast East-West axes, or regions with common growing seasons. There was a long Western history of metalworking,
which not only increased economic productivity but also
led to such weapons as guns and cannons. By the
Renaissance, Europeans had become highly skilled at
building ships and navigating the oceans. And by the late
Chapter 2 • The Historical Development of Capitalism
47
80°
ARCTIC OCEAN
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MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
Belgium
Spain
Japan
Portugal
France
Austria
Germany
Netherlands
Russia
United Kingdom
Denmark
Italy
Ottoman Empire
United States
FIGURE 2.27 The geography of colonial empires in 1914, on the eve of World War I and the peak period of European influence.
The British Empire encompassed vast areas in Africa, South Asia, and Australia. France ruled over most of western Africa and
Indochina. Portugal retained its hold over Angola and Mozambique. Belgium controlled Congo. Indonesia belonged to the Dutch.
Even late-developing Italy and Germany controlled parts of Africa. Japan was becoming a new colonial power in Asia, and the United
States had become both a colonial power, in the Philippines and Puerto Rico, as well as an emerging neocolonial one.
eighteenth century, the West had discovered inanimate energy, which offered numerous economic and military advantages. In addition, the Europeans unleashed diseases
(if unintentionally), particularly smallpox and measles, on
the New World, which provided them with an unintended
advantage but also led to labor shortages.
Others maintain that the West’s advantages were not
simply technological, but political. The Western “rational”
legal and economic system stressed secular laws and the
importance of property rights. Yet others point out that unlike the Arabs, Mughal India, or China, Europe was never
united politically. Indeed, every time one European power
attempted to conquer the others, it was defeated, as exemplified by France in the early nineteenth century and
Germany twice in the twentieth. The lack of centralized
political authority created a climate in which dissent
and critical scholarship was tolerated. For example, the
French Huguenots, Protestants in a predominantly Catholic
country, could flee persecution by moving to Switzerland,
where they started the Jura district watch industry.
Similarly, when Columbus failed to obtain financing for his
voyages from the Italians, he could switch to Spain, whose
king ultimately consented.
A Historiography of Conquest
To appreciate colonialism, it is necessary briefly to delve
into its specifics in different times and places. This short
review is intended to demonstrate that colonialism meant
quite different things under different contexts (i.e., it was
historically and geographically specific).
LATIN AMERICA Home to wealthy and sophisticated civi-
lizations such as the Inca, Mayan, and Aztec cultures, Latin
America was one of the first regions to be taken over by
Europeans. Two years after Columbus arrived, Spain and
Portugal struggled over who owned the New World, a
contest settled by the Pope in the Treaty of Tordesillas in
1494 (Figure 2.28). The conquistadors who spread out
over Mexico and Peru annihilated, respectively, the Aztecs
and Incan states. In large part, this was accomplished
through the introduction of smallpox, which killed 50 to
80 million people within a century of Columbus’s arrival,
the greatest act of genocide in human history.
Under the philosophy of mercantilism, which stressed
bullion, or precious metals, as the key to national wealth,
the Spanish took home large quantities of silver from the
The World Economy: Geography, Business, Development
FIGURE 2.28 The Treaty of Tordesillas in 1494
divided the New World between Spain and
Portugal, which is why Brazilians speak
Portuguese rather than Spanish.
Lisbon
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0
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New World. The silver mines in central Mexico were
among the largest in the world, and in the Potosi mines in
Bolivia, 2 million Aymara Indians perished digging silver.
Argentina takes its name from the Latin word for silver and
is home to the Rio Plata (or “silver river”). Most of this
metal was taken back to Spain in galleons and provided an
enormous base of capital that financed economic activities
throughout Europe.
Spain also introduced the land grant system into the
New World, giving large tracts of lands to potential rivals
for the Spanish throne to remove any threat they might
have posed. This process was an extension of the latifundia system practiced in Iberia, which itself had roots going
back to the Roman Empire. As a small landed aristocracy
consolidated its hold, the distribution of farmland became
highly uneven, with a few wealthy landowners and large
numbers of landless campesinos. This pattern continues to
the present in Latin America, indicating how colonialism
still profoundly shapes the geographies of the contemporary world.
The Spanish empire in the New World was largely
ended by the independence movements of the 1820s that
followed the Napoleonic wars (although it took the
Spanish-American War of 1898 to finish it off). The Spanish
empire broke up into a series of independent countries
stretching from Mexico to Argentina. The Portuguese empire in Brazil did not fragment in the same way, leaving
that nation as the giant of Latin America.
NORTH AMERICA The colonialization of North America
proceeded along somewhat different lines. Here, the
Spanish were active in Florida and in the Southwest
(Figure 2.29). A century before the Pilgrims arrived at
Plymouth Rock, the Spanish had control of what is now
Texas and California. The French took over Quebec and
the St. Lawrence River valley, only to lose it to Britain in
the eighteenth century, and the Mississippi River valley,
with the key port of New Orleans, only to sell it to the
United States in the Louisiana Purchase of 1803. The
Russians crossed the Bering Straits and seized Alaska but
sold it to the United States in 1867. The Dutch established
colonies in New Amsterdam, including Haarlem and
Brueklyn, but the British captured the area in 1664 renaming it New York. Britain emerged as the dominant power
in North America, controlling New England and the
Piedmont states along the eastern seaboard. Canada was
colonized largely through the famous Hudson Bay
Company, then the world’s largest, which controlled much
of the fur and fish trade.
British colonialism in North America began with a series of port cities on the east coast, typically at the mouths
of rivers (e.g., Boston, New York City, Philadelphia). After
these colonies achieved independence in the Revolutionary
War, settlers moved west, across the Appalachians in the
early nineteenth century and across the Great Plains and
Rocky Mountains somewhat later. Railroads opened up the
region to even further settlement. As in Latin America, this
process involved the wholesale eradication of Native
American peoples, theft of their land, and commodification
of territory.
AFRICA As it was everywhere else, colonialism in Africa
was unique. The process included slavery, the kidnapping
of roughly 20 million people and exporting them to the
New World (Figure 2.30), typically under brutally inhumane conditions, where they were used to compensate for
the labor shortages brought on by the European annihilation of Native Americans. The capture of slaves robbed
these societies of young adults in their prime working
years and sometimes occurred with the assistance of local
chiefs who sought to profit from the trade. Slaves were
generally taken from western Africa, and the largest numbers worked the sugar plantations of Brazil and the
Caribbean. Others worked the cotton and tobacco planta-
Chapter 2 • The Historical Development of Capitalism
49
FIGURE 2.29 The colonial conquest of North
America involved a variety of European
powers. The Spanish were in Florida and the
southwestern United States long before any
other Western power. The French occupied
the St. Lawrence River valley and the
Mississippi, before selling the territory
between the Mississippi and the Rockies to
the United States in 1803 (the Louisiana
Purchase). Russia occupied Alaska, sending
explorers as far south as California. Britain
had colonies in New England and the
Piedmont and ruled Canada through the
Hudson Bay Company.
ARCTIC
OCEAN
FR
EN
C
H
RUSSIAN
ENGL
ISH
DUTCH
SWEDISH
ENGLISH
ATLANTIC
OCEAN
PACIFIC
OCEAN
SPANISH
SPANISH
0
250
500 MILES
0 250 500 KILOMETERS
tions of the American South. In eastern Africa and across
the Sahara desert, there long existed a smaller system of
slavery operated by Arab traders.
Africa is exceptionally rich in minerals, and colonialists
were quick to take advantage of that fact. In the nineteenth
century, when European powers penetrated from the
coastal areas into the interiors, copper, gold, and diamond
mines soon opened, often using slave labor. These activities
remain the basis of many African economies today.
Perhaps the most important colonial impact on Africa
was the political geography that Europe imposed upon
that continent. Following the famous Berlin Conference of
1884, when European powers drew maps demarcating
their respective areas of influence, the colonies of Africa
bore no resemblance whatsoever to the distribution of
indigenous peoples. Roughly 1000 tribes were collapsed
into about 50 states (Figure 2.31). Some groups were separated by colonial boundaries; many others, with widely
different cultures and economic bases, were lumped together. Not surprisingly, since independence in the 1950s
and 1960s, many African states, including Angola, Congo,
Rwanda, Liberia, and Sudan, have been wracked by civil
wars and tribal conflicts in which tens of millions have
perished.
THE ARAB WORLD The Arab world, one of the most pow-
erful and sophisticated centers of world culture from the
seventh through the fifteenth centuries, had been colonized long before the Europeans arrived. The expansion
of the Ottoman Empire over several centuries led one
group of Muslims—Turks, who are not Arabs—to dominate another group of Muslims, the Arab peoples of the
Middle East and North Africa (Figure 2.32). Gradually,
starting in the nineteenth century, European powers encroached on this vast domain. In 1798, the French seized
Egypt from the Ottomans, only to lose it to Britain four
years later. The British used Egypt as a source of cotton,
establishing large plantations along the Nile River and
building the Suez Canal in 1869. In the nineteenth century,
the French seized Morocco, Algeria, and Tunisia.
50
The World Economy: Geography, Business, Development
ATLANTIC
OCEAN
EUROPE
NORTH
AMERICA
AFRICA
EQUATOR
PACIFIC
OCEAN
SOUTH
AMERICA
AFRICANS EXPORTED AS
SLAVES (estimated)
1500–1870
ATLANTIC
OCEAN
3 –5 million
Fewer than 1/2 million
FIGURE 2.30 The slave trade brought roughly 20 million Africans to the New World to compensate for the labor shortages induced
by the great smallpox epidemics of the sixteenth century. Slavery robbed African societies of many of their young people in the
prime working years. Most slaves were shipped to the Caribbean and South America to work on sugar and fruit plantations; in
the southern United States, slaves were used to grow and harvest cotton and tobacco.
After World War I, the Ottoman Empire collapsed, and
the French and British seized its Arab colonies. The French
took over Syria and Lebanon. The British assumed control
over Palestine, much of which became Israel in 1948, as
well as Iraq and the sheikdoms of the Persian Gulf. Many
Arabs, who initially welcomed the Europeans as liberators,
quickly learned that their new, European boss was very
similar to the old, Ottoman one in its suppression of their
liberties.
SOUTH ASIA The Indian subcontinent came to be the
jewel in the crown of the British Empire. Starting in the
seventeenth century, the British East India Company established footholds in this domain, founding the city of
Calcutta in 1603. India, which is predominantly Hindu, had
long been controlled by the Muslim Mughals, whose
power was gradually usurped by the foreigners. A vast
land that stretched from Muslim Afghanistan in the west
through Hindu India to Buddhist Burma, the Indian colony
was the largest colonial possession on earth.
Britain made an enormous economic impact on this
land. In the nineteenth century, British textile imports
flooded India, destroying the Mughal textile industry in a
classic example of colonial deindustrialization. This event
later became symbolically important in the independence
movement after World War II, when Gandhi called upon
Indians to boycott British textiles. Indian laborers were exported throughout the British Empire, including the
Caribbean, eastern Africa, and parts of the Pacific such as
Fiji. Tea plantations were established in Bengal and Ceylon
(now Sri Lanka). To facilitate the extraction of Indian
wealth, Britain built railroads.
In 1857, a mass uprising against the British, known as
the Sepoy Rebellion, took place. Encouraged by the local
raj, or Mughal ruler of Calcutta, the revolt claimed the lives
of tens of thousands of Indians when it was eventually
crushed. Although it failed, the revolt is often considered
India’s first blow for independence because it forced the
British crown to assume direct control over this land rather
than administer it through the East India Company, which
was abolished as a consequence.
EAST ASIA East Asia, comprising China, Korea, and
Japan, also had a unique colonial trajectory. Japan, as
Chapter 2 • The Historical Development of Capitalism
INDI AN
O CEAN
AT L A N T IC
OC E AN
Modern national boundaries
51
0
500
1,000 MILES
Tribal boundaries
0
500
1,000 KILOMETERS
FIGURE 2.31 The Berlin Conference of 1884 redrew the map of Africa, collapsing roughly 1000 tribes into 50 different states. Because
the boundaries of what would become Africa’s states bore no resemblance to the geography of the people who lived there, many
tribes were split in two, while others, without any cultural or economic similarities, were lumped together. The political geography of
Africa has played out disastrously in the form of numerous tribal conflicts and civil wars that have claimed the lives of tens of millions
of people.
noted earlier, was never colonized. When it emerged from
a long period of isolation that began in the early seventeenth century and lasted until 1853, Japan rapidly westernized and industrialized and became the only non-Western
power to challenge the West on its own terms, gradually
expanding its power through northeast Asia. Korea,
opened up under the threat of force in the 1870s, was
taken over by Japan in 1895 and annexed in 1905, and
Japan held it until the end of World War II. A similar
situation occurred in Taiwan.
China, however, was a different story. Under the rule
of the Manchus, foreigners from the north (Manchuria)
who ruled the Chi’n dynasty from 1644 until the revolution of 1911, the Chinese government was weak and corrupt. Except for a few cities along the coast, China
was never formally colonized; rather, European control
The World Economy: Geography, Business, Development
52
EUR O PE
ATLANTIC
OCEAN
Vienna
Aral
Sea
Ca
a
Se
ian
sp
Black Sea
Istanbul
Algiers
Mediterranean Sea
FIGURE 2.32 Turkey’s Ottoman Empire
stretched across North Africa, the Middle
East, and southeastern Europe. Although
Turks are not Arabs, the Turkish empire was
the dominant power in the Arab world until
World War I, when it collapsed, paving the
way for the British and French colonialists.
A S I A
Baghdad
Jerusalem
Tripoli
Cairo
A
F
R
I
C
A
d
Re
ARABIA
a
Se
0
300
Arabian
Sea
600 MILES
300 600 KILOMETERS
0
operated through a pliant and cooperative government.
Chinese coolie labor was exported to British colonies in
Southeast Asia and to the United States, where Chinese
labor built railroads in the West. British, French, German,
and American trade interests purchased vast amounts of
Chinese tea, silks, spices, and porcelains. In fact, Britain
ran a negative balance of trade with China in the eighteenth and early nineteenth centuries, which it rectified
by introducing large amounts of opium. By the 1830s,
opium use was widespread in China. Opium is highly
addictive, and the introduction of massive quantities
created severe social disruptions in Chinese society.
Nonetheless, profits were more important, and the British
trade balance was restored (Figures 2.33a and 2.33b). In
a rare moment of defiance, the Manchu government
resisted opium imports, and Britain and China fought
two short, nasty conflicts, the Opium wars of the 1840s.
The British won easily. As compensation, the British
seized “treaty ports,” coastal cities such as Hong Kong
and Shanghai, where Western, not Chinese, law applied.
Britain held Hong Kong until 1997, when it was returned
to China.
Reversal of the Silver Flow
Between Britain and China
1000
British Sales of Opium to China
800
Number of Chests (Thousands)
Number of Chests (Thousands)
25
20
15
10
5
0
400
200
0
Opium
Surge
–200
1729
1790
1810
1823
–400
1832
Years
(a)
600
1680
1710
1740
1770
1800
1830
Decades
(b)
FIGURE 2.33 British sales of opium to China in the nineteenth century represented a response to Britain’s trade deficit with that
nation. Economically, opium had exactly the intended effect, reversing the balance of payments, as indicated by silver flows.
Socially, it was catastrophic: Opium is highly addictive and as much as 12% of China’s adult population became hooked on it as a
result of cheap British imports. The Manchu regime’s opposition prompted the Opium wars of the 1840s, which Britain won handily,
opening China to the establishment of foreign treaty ports.
Chapter 2 • The Historical Development of Capitalism
Chinese resentment against the Manchus culminated
in the Taiping Rebellion, a huge uprising in the southern
part of the country led by Chinese Christians. Lasting from
1851 to 1864, this rebellion led to the deaths of more than
20 million people but was ultimately crushed by the
Chinese government with Western backing. The shorter
Boxer Rebellion of 1899–1901 was more explicitly antiWestern. These revolts set the stage for the successful nationalist revolution of 1911, which ended Manchu rule and
initiated the Republic of China.
The French controlled much of Indochina, including
Vietnam, Laos, and Cambodia. French rule shaped the design and architecture of cities such as Saigon, and large
numbers of Vietnamese converted to Catholicism. French
domination did not end until 1954, with the defeat at Dien
Bien Phu an event that laid the foundations for American
military involvement in Vietnam later.
Britain was also a major power in Southeast Asia; it
controlled Burma and, only informally, the economy of
Thailand. These countries were made into rice exporters
for other parts of the British Empire. The British controlled
the colony of Malaya (later Malaysia), including the strategically critical Malacca Straits. They founded the city of
Singapore as a naval station and commercial center to exercise control over this region. Malaya, like other colonies
in the area, became a major producer of rubber products
as well as timber and tin.
Indonesia, now the fourth most populous country in
the world, was dominated by the Dutch for several hundred years. Dutch rule, starting with the founding of the
Batavia colony on Java in the eighteenth century, gradually expanded to include the other islands. The primary institution involved was the Dutch East Indies Company, a
chartered crown monopoly similar to the British East India
SOUTHEAST ASIA The peninsula of Indochina and the
islands of Southeast Asia, long home to a rich and diverse
series of peoples and civilizations, were conquered by a
variety of different European powers (Figure 2.34). The
Philippines was Spain’s only Asian colony and served as
the western terminus of the trans-Pacific galleon trade.
Administered as part of Mexico, the Philippines was heavily
shaped by Spanish rule, which affected land-use patterns
(including sugar plantations), the region’s language, and
made it the only predominantly Catholic country in Asia.
Spanish rule ended in 1898 when the United States took
over; the Philippines finally became independent after
World War II.
0
200
200
0
53
Ca
ic of
Trop
400 MILES
r
nce
130°E
Portuguese
400 KILOMETERS
Spanish & American
Dutch
20°N
British
BURMA
(1826)
LAOS
(1893)
PHILIPPINES
(Spain–1521)
(U.S.–1898)
French
Not colonized
(1888)
THAILAND
CAMBODIA
(1863)
Date of initial claim
VIETNAM
(1859)
PACIFIC
OCEAN
0°
10°N
BRUNEI
(1888)
MALAYA
(1786)
NORTH
BORNEO
(1888)
ator
Equ
SARAWAK
(1888)
SINGAPORE
(1819)
Malacca
(Port–1509)
0°
I
N
D
O
N
E
S
(Early 1600's)
I
A
S
10°
TIMOR-LESTE
(1566)
INDI AN O CEAN
10°S
100°E
110°E
120°E
FIGURE 2.34 Colonialism in Southeast Asia involved a variety of powers. The French occupied Vietnam, Laos, and Cambodia. Britain
ruled Burma, Malaya, and Singapore and indirectly controlled Thailand. The Spanish held the Philippines until 1898, when the United
States took it away. The Dutch ruled Indonesia until 1947, when it finally achieved independence.
54
The World Economy: Geography, Business, Development
and British West India companies. Indonesia became a significant source of spices, tropical hardwoods, rubber, cotton, and palm oils. In all of Southeast Asia, Chinese immigrants came to play major roles in the economy as bankers
and shopkeepers.
OCEANIA Australia, New Zealand, and the Pacific Ocean
islands, which are commonly grouped as the region of
Oceania, formed yet another domain of colonialism.
Australia was inhabited for thousands of years by indigenous aborigines, most of whom were eradicated by the
British as they exerted control. The native Tasmanian population was completely exterminated. The continent
served originally as a penal colony for criminals. In the
nineteenth century, it became a significant exporter of
wheat and beef.
New Zealand, also a British colony, had a much larger native population, the Maori, who continue to have a
significant presence there. The introduction of refrigerated shipping in the late nineteenth century turned this island nation into a major producer of lamb and dairy
products.
Finally, the countless islands of the Pacific Ocean,
home to varying groups of Polynesians, Micronesians, and
Melanesians, were conquered by the British and French.
Captain Cook sailed through in the seventeenth century,
paving the way for followers. In the nineteenth century,
fishing and whaling interests used these islands to refuel.
Following World War II, when the United States drove
Japan out of the Pacific, America became the leading political force in the area.
The Effects of Colonialism
By now, it is abundantly evident that colonialism introduced enormous changes in colonized places. It is worth
recapitulating these in a more systematic form.
ANNIHILATION OF INDIGENOUS PEOPLES Often, colonial-
ism imposed traumatic consequences on the people who
were conquered. At times, this meant open genocide, such
as in Australia, in which more than 90% of the aboriginal
population was exterminated. In the New World, disease
led to the deaths of tens of millions, or 95% of the population, including all of the native inhabitants of the
Caribbean. The African slave trade devastated tribal societies on that continent. In other cases, brute force was
used to enforce Western dominance, as during the Sepoy
Rebellion in India and the Taiping Rebellion in China.
These examples are the severest expressions of colonial
control, but they serve as a reminder that the European
conquest of the world was often brutally violent.
FIGURE 2.35 A sugar plantation in the Caribbean Antilles.
Plantations used cheap labor, often slaves, working under
deplorable conditions. They represented the first wave in the
worldwide commercialization of many crops.
ing, and agriculture. In Latin America, Africa, South Asia,
and Southeast Asia, cash crops such as sugar, cotton, tea,
coffee, fruits, rubber, and tobacco were grown under the
plantation system for sale abroad (Figure 2.35). Silver, tin,
gold, copper, diamonds, iron, and other ores were mined
using slave labor or peasants working under slavelike conditions. Mercantilist trade policies suppressed industrial
growth in the colonies to avoid creating competitors with
the colonizers, a process largely responsible for the fact
that many developing countries today export low-valued
goods and must import high-valued ones.
FORMATION OF A DUAL SOCIETY With it colonialism
brought great inequality to colonized societies. Often,
colonial powers utilized a small, native elite, typically
drawn from an ethnic minority, to assist them in governing
the colonies. For example, the French utilized the Alawites
in Syria, a sect of Islam neither Sunni nor Shiite. The
Germans and Belgians favored lighter-skinned Tutsi over
darker-skinned Hutu in Rwanda and Burundi. The British
relied on the Muslim Mughal rulers to govern Hindu India.
For the bulk of the population, colonialism entailed
declining economic opportunities, a theme central to
dependency theory (Chapter 14). Traditional patterns of
agriculture were disrupted, often with disastrous effects.
Land-use patterns favored colonialists, while indigenous
peasants had to pay for the cost of their own exploitation
with taxes. People living in dry climates in western Africa,
for example, coped well with drought until the British
forced them into a system of cash cropping. Huge famines
struck India, Egypt, and China in the nineteenth century.
RESTRUCTURING AROUND THE PRIMARY ECONOMIC
SECTOR The incorporation of colonies into a worldwide
POLARIZED GEOGRAPHIES As colonial societies became
division of labor led above all to the development of a primary economic sector in each of them. Primary economic
activities are those concerned with the extraction of raw
materials from the earth, including logging, fishing, min-
polarized, so too did the spaces they comprised. Ports,
which were central to European maritime trade and control,
became important centers of commerce, often to the detriment of traditional capitals further inland. For example, in
Chapter 2 • The Historical Development of Capitalism
0
100
0
200 MILES
NIGER
100
55
200 MILES
CHAD
0
100
0 100 200 KILOMETERS
200 KILOMETERS
Lake Chad
INDIA
CHINA
BANGL.
BURMA
BENIN
Kaduna
Mandalay
LAOS
NIGERIA
18°N
Bay
of
Bengal
6°N
Rangoon
THAILAND
Lagos
CAMER OON
Port
Harcourt
12°N
4°N
Railway
Routes
Gulf of Guinea
4°E
6°E
Railway
Routes
8°E
96°E
FIGURE 2.36 Railroads in Nigeria, Burma, and Angola reveal the
colonial propensity to establish a transportation infrastructure
that linked coastal port cities with the resources of the interior,
which were typically mines or plantations.
CONGO
TRANSPLANTATION OF THE NATION-STATE The nation-
state, as we observed earlier, was fundamentally a
European creation. Nonetheless, it was widely dispersed
around the world as colonies were made into states. In
Africa, where this process was the most notorious, it led to
the formation of unstable states with highly artificial borders. Similarly, Burma and Afghanistan were creations of
the British. Even India, which is more culturally diverse
than all of Europe, was stitched into one country; surpris-
0
0
6°S
Peru, Lima displaced the mountainous Incan city of Cuzco;
in western Africa, the famous inland trade center of
Timbuktu declined as new Atlantic maritime routes flourished; in India, coastal cities such as Calcutta, Mumbai
(formerly Bombay), and Madras displaced the inland
Mughal capital of Delhi; in Burma (now Myanmar),
Mandalay in the interior fell far behind coastal Rangoon; in
Vietnam, the imperial capital Hue declined in the face of
Saigon; and in Indonesia, the traditional center of
Jogjakarta in central Java was marginalized by the Dutch
port city of Batavia, later Jakarta. As cities grew and offered more opportunities, millions of people left the poorer rural areas in waves of rural-to-urban migration.
From the coasts, railroads extended colonial control
into the interior (Figure 2.36), often reaching into mineralrich regions or plantations. A long-term consequence of
this design is that the road and rail networks of developing
countries often bear little resemblance to the distribution of
the population that lives there and their needs; rather, they
are constructed to facilitate the export of raw materials to
the colonizing country, and today, to the global economy.
102°E
9°S
100
100
200 MILES
200 KILOMETERS
DEM. REP. OF THE CONGO
Luanda
Malanje
Dilolo
A TLA N TIC
OC EA N
A N GOLA
12°S
Benguela
ZAMBIA
15°S
18°S
N A MIB IA
Railway
Routes
12°E
ingly, it divided into only three countries after independence (including Pakistan and Bangladesh). Unlike Europe,
where states were centered to some degree on ethnic similarity, the states of much of the developing world were
often too diverse to be understood in the same terms. In
such societies, where local religious, ethnic, and tribal loyalties supersede nationalism, political conflicts can impair
economic growth and development.
Of course, the United States is also very diverse ethnically and culturally, but it emerged under very different
56
The World Economy: Geography, Business, Development
historical circumstances than did the former European
colonies in the developing world. Above all, the United
States was primarily a colonizer rather than a colony, able
to exert military and economic power over other countries
and ultimately rising to become the globe’s premier superpower—and that makes all the difference.
CULTURAL WESTERNIZATION As noted previously, colonial-
ism is not simply an economic or political process, but also
a cultural and ideological one. Western economic and political control was accompanied by the imposition of Western
culture. Missionaries, for example, spread Christianity
throughout the colonial world, sometimes successfully
(e.g., Latin America, the Philippines) and sometimes not
(e.g., China). School systems in colonies, generally set up
to benefit the ruling elite, offered extensive instruction in
the history and culture of the colonial country but little
about the society in which the students lived. More broadly, colonialism may be seen as one chapter in the broader
story of how global capitalism homogenizes lifestyles, values, and role models around the world, turning disparate
sorts of peoples into ready consumers.
The End of Colonialism
The European empires were long-lived, lasting almost half
a millennium. Yet ultimately, they collapsed. In Latin
America, this process began relatively early, following the
Napoleonic wars, which weakened the core sufficiently to
allow the periphery to break away. In Africa and Asia, the
end of colonialism came much later, following World Wars
I and II, which, similar to the global geopolitical situation
of the early nineteenth century, amounted to the selfdestruction of the European powers.
The international environment following World War II
provided an ideal opening for various nationalist and independence movements in the Arab world, Africa, India, and
Southeast Asia. Sometimes Communists were involved.
The Japanese destroyed the myth of European invincibility
occupying Indochina, the Philippines, Indonesia, and the
Pacific Ocean. Often, independence movements were led
by intellectuals educated in the West, such as Ghana’s
Kwame Nkrumah, Vietnam’s Ho Chi Minh, and India’s
Mohandas Gandhi. Moreover, the Cold War rivalry between the United States and the Soviet Union allowed political leaders in the developing world to play the superpowers off against one another.
Independence movements succeeded, sometimes
peacefully, as in India, and often violently, as in the
Vietnamese and the Algerian defeat of the French. As a result of this process of decolonization, the number of independent states multiplied rapidly in the 1950s, 1960s, and
1970s. Today, very few official colonies remain. Whether
colonialism is truly dead, however, is another matter; in
Chapter 14 we take up the notion of neocolonialism—
colonialism in practice but not in name.
Summary
This chapter has introduced you to the historical foundations
of the world economy. To understand the economic geography of the world today, it is necessary to appreciate how it
originated and came to be. This entails knowing something
about capitalism, the type of society that emerged in the sixteenth and seventeenth centuries and that now dominates
virtually the entire globe. To appreciate what capitalism is,
and how it constructs geographies, is to understand that it
is one of many possible ways in which human beings have
organized themselves historically and geographically.
First, the chapter described feudal society, both to outline in some detail what a noncapitalist society looks like
and to sketch the historical context in which capitalism
emerged. Then we proceeded to describe the fundamental
features of capitalism, which, uniquely, is dominated by markets as the primary way in which resources are organized.
Markets are not unique to capitalism, but their importance is.
However, this does not mean that markets are the only way
in which economic activity is shaped, for the state plays a
role even in the “freest” of market societies. Capitalism also
entails a specific set of class relations, including the commodification of labor and a working class. Capitalism also
creates landscapes of uneven spatial development.
Next, we delved into the Industrial Revolution, the
period in the eighteenth and nineteenth centuries that saw
a fantastic transformation in capitalist social relations. The
ability to harness inanimate energy led to a wave of technological innovations and increases in productivity.
Industrialization created the factory system, and with it,
the working class. In commodifying time and space, the
Industrial Revolution produced radically new geographies.
Industrialization, which began in Britain, catapulted that
country into becoming the most powerful in the world. It
also unleashed a new international economy characterized
by significantly higher levels of trade and investment,
which were achieved in part by the application of the
steam engine to land and ocean transportation. The rising
speed of transportation and communication created great
waves of time-space compression. Yet industrialization
was a complex process that varied over time, with the rise
of different industries, products, and technologies.
The latter part of this chapter explored the multiple
dimensions of colonialism, the expansion of capitalism on
a global scale. We traced some of the advantages that
Europeans enjoyed that allowed them to dominate many
societies much larger than themselves. The chapter examined major world regions conquered by different
European powers, noting that colonialism produced different effects in different parts of the globe. Finally, we
summed up the impacts of colonialism, which produced
the division between the world’s economically developed
and underdeveloped nations.
Chapter 2 • The Historical Development of Capitalism
57
Key Terms
animate sources of
energy 35
bubonic plague 25
burghers 26
capitalism 21
colonialism 45
commodities 26
feudalism 21
guilds 23
Hanseatic League 26
inanimate sources of
energy 35
industrialization 35
market 26
mercantilism 35
nation-state 33
productivity 37
profit 27
serfs 23
uneven spatial
development 29
Study Questions
1. Why is historical context so important to the analysis of
contemporary economic geography?
2. What is feudalism, and how did it differ from capitalism?
3. What was the fourteenth-century plague, and what impacts
did it have?
4. How is capitalism a unique type of economy and social
order?
5. Are there classes under capitalism? Which ones?
6. Is capitalism the only type of economic system to have
markets? Why or why not? How does the role of markets in
capitalism differ from their role in noncapitalist societies?
7. What territorial changes accompanied the emergence of
capitalism?
8. How did capitalism unleash new ideologies and ways of
looking at the world?
9. How is the nation-state related to the growth of
capitalism?
10. When and where did capitalism begin?
11. What is industrialization?
12. When and where did the Industrial Revolution begin?
13. What are some major economic, social, and geographic
impacts of the Industrial Revolution?
14. How did Europe manage to colonize the rest of the world?
15. How did colonialism differ among Latin America, Africa, and
Asia?
16. What are five ways in which colonialism affected the
societies and geographies of the colonies?
17. When did colonialism come to an end, and why?
Suggested Readings
Abu-Lughod, J. 1989. Before European Hegemony: The World
System A.D. 1250–1350. New York: Oxford University Press.
Chirot, D. 1985. “The Rise of the West.” American Sociological
Review 50:181–195.
Diamond, J. 1999. Guns, Germs, and Steel. New York: W. W. Norton.
Hindess, B., and P. Hirst. 1975. Pre-Capitalist Modes of
Production. London: Routledge and Kegan Paul.
Jones, E. 1981. The European Miracle. Cambridge, UK: Cambridge
University Press.
Landes, D. 1969. The Unbound Prometheus: Technological Change
and Industrial Development in Western Europe from 1750 to
the Present. Cambridge, UK: Cambridge University Press.
Mann, M. 1986. The Sources of Social Power. Cambridge, UK:
Cambridge University Press.
Mielants, E. 2007. The Origins of Capitalism and the “Rise of the
West.” Philadelphia: Temple University Press.
Perelman, M. 2000. The Invention of Capitalism: Classical
Political Economy and the Secret History of Primitive
Accumulation. Durham, NC: Duke University Press.
Thompson, E. P. 1966. The Making of the English Working Class.
New York: Vintage Press.
Wallerstein, I. 1979. The Capitalist World-Economy. Cambridge,
UK: Cambridge University Press.
Web Resources
The Agrarian Origins of Capitalism
http://findarticles.com/p/articles/mi_m1132/is_n3_v50/
ai_21031830/
Internet Modern History Sourcebook
http://www.fordham.edu/halsall/mod/modsbook14.html
Argues that capitalism had rural, not urban, origins.
Industrial Revolution
http://www.42explore2.com/industrial.htm
History of Capitalism
http://www.historyworld.net/wrldhis/PlainTextHistories
.asp?historyid=aa49
Good overview of the Industrial Revolution.
Lots of good links to detailed accounts of the Industrial Revolution.
Timeline of major processes that led to the rise of capitalism.
Log in to www.mygeoscienceplace.com for videos, In the News
RSS feeds, key term flashcards, web links, and self-study quizzes
to enhance your study of the historical development of capitalism.
OBJECTIVES
쑺 To describe and account for the world distribution of
human populations
쑺 To examine the economic causes and
consequences of population change
쑺 To describe the Malthusian argument, its extensions,
and weaknesses
쑺 To describe the major demographic and economic
characteristics of a population
High birth rates, large families, and massive rural-to-urban migration
both reflect and shape urban and economic systems in the developing
world, including the structure of cities and the quality of daily life.
쑺 To outline the demographic transition
쑺 To discuss the growth and impacts of the baby
boom
쑺 To describe and explain economic migrations, past
and present
CHAPTER
Population
3
uman beings are the most important element in the world economy. People are not only the key productive
factor, but their welfare is also the primary objective of economic growth and analysis. People are the producers as well as the consumers of goods and services. As the world’s population continues to grow, we face the
critical question of whether there is an imbalance between producers and consumers. Does population growth
prevent the sustainability of development? Does it lead to poverty, unemployment, and political instability?
To help answer these questions, this chapter examines the determinants and consequences of population change
for developed and developing countries. It analyzes population distributions, characteristics, and trends. It also
reviews competing theories on the causes and consequences of population growth.
H
GLOBAL POPULATION DISTRIBUTION
There is a widespread belief that there are “too many” people in the world; the presence of large numbers of human
beings is a relatively recent phenomenon (Figure 3.1). For the vast bulk of human existence—upwards of 95%—
people existed as hunters and gatherers, collecting food from various wild plants and stalking animals. This mode of
production yields relatively few calories per unit area and supports only low population densities. Further, it is demographically very stable over time: Because births equaled deaths, there was virtually no increase in the number of
people in the world. Following the agricultural revolution of roughly 8000 B.C., the capacity of many societies to support more people increased somewhat. However, the really big gains in population did not occur until the onset of
the Industrial Revolution of the eighteenth and nineteenth centuries, when the transformation of agriculture freed
millions from lives of rural toil and allowed for large, dense urban settlements. Thus, exponential population growth
is largely a product of modernity and the modern world.
In 2010, there were approximately 6.9 billion people in the world. The diverse populations that inhabit the world
are very unevenly distributed geographically. Most people are concentrated in but few parts of the world (Figure 3.2),
particularly along coastal areas and the floodplains of major river systems. Four major areas of dense settlement are
(1) East Asia, (2) South Asia, (3) Europe, and (4) the eastern United States and Canada. In addition, there are minor clusters in Southeast Asia, Africa, Latin America, and along the U.S. Pacific coast. Figure 3.3 is a cartogram, a map that deliberately distorts areas in proportion to a variable, in this case, population size, revealing the large masses of humanity in
Asia. Asia’s population is the largest, as it has been for several centuries. In 2008, Asia contained 4.1 billion people, or
60% of the world’s population. Six of the top 10 countries in population size—China, India, Indonesia, Japan,
Bangladesh, and Pakistan—are in East, South, or Southeast Asia, which, with 4.0 billion people, is home to 59% of the
planet’s inhabitants. Europe (including Russia) had 729 million residents, about 11%; other continents included Africa
(1 billion, or 14%), Latin America (577 million, or 8.6%), North America (337 million, or 5%), and Oceania (34 million,
less than 1%). The populations of the developing world—Africa, Asia (excluding Japan), and Latin America—accounted
for three out of every four humans.
National population figures show even more variability. Ten out of the world’s nearly 200 countries account for
two-thirds of the world’s people (Table 3.1). Five countries—China, India, the United States, Indonesia, and Brazil—
contain half of the world’s population. With 1.3 billion people, China is the world’s most populous country. India, with
1.17 billion, is second, but is growing more quickly, and will surpass China in population in roughly 30 years.
The United States, with 310 million in 2010, is third, and is by far the most populous of the developed nations.
Indonesia, the world’s largest Muslim nation, is fourth, with 243 million. Other nations with large populations include
59
The World Economy: Geography, Business, Development
World Population Growth Through History
8
Old
Stone
Age
7
6
New
Stone Age
Commences
New
Stone
Age
Bronze
Age
Modern
Age
Middle
Ages
Iron
Age
5
4
Black Death
FIGURE 3.1 World population growth
throughout history. For most of human
existence, population levels were low
and growth rates were zero. Only with
the Industrial Revolution that created
the modern age did growth rates
begin to rise, leading to an
exponential increase in the numbers
of people.
Billions of People
60
3
2
1
0
2.5
million
years
7000
B.C.
Brazil (201 million), Pakistan (184 million), Bangladesh
(156 million), Nigeria (152 million), Russia (139 million and
declining), Japan (126 million and declining), and Mexico
(112 million). By way of comparison, other countries with
significant populations include the Philippines (100 million),
Vietnam (90 million), Ethiopia (88 million), Germany
(82 million), Egypt (80 million), Turkey (79 million), Iran
(78 million), the Democratic Republic of the Congo
(71 million), Thailand (67 million), France (65 million), the
United Kingdom (62 million), and Italy (58 million). Only 3
6000
B.C.
5000
B.C.
4000
B.C.
3000
B.C.
2000
B.C.
1000
B.C.
1
A.D.
1000
A.D.
2025
A.D.
of the 10 most populous nations are considered to be economically developed (the United States, Russia, and Japan).
Population Density
Because countries vary so greatly in size, national population totals tell us nothing about crowding. Consequently,
population is often related to land area. This ratio is called
population density—the average number of people per
unit area, usually per square mile or square kilometer.
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
PACIFIC
10°
OCEAN
130°
30°
30°
Tropic of Cancer
20°
20°
10°
OCEAN
30°
Tropic of Cancer
160°
0°
40°
40°
120°
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
110°
100°
10°
50°
60°
Equator
0°
90°
WORLD POPULATION
(PERSONS PER
SQUARE KILOMETER)
10°
10°
70°
80°
INDIAN
10°
140°
90°
OCEAN
10°
120°
150°
15,500 and above
20°
20°
20°
20°
3,200–15,499
150°
20°
20°
160°
170°
CORAL SEA
20°
20°
Tropic of Capricorn
30°
1,150–3,199
30°
30°
30°
30°
40°
40°
50°
50°
30°
30°
30°
650–1,149
40°
40°
450–649
150–449
50°
50°
0–149
40°
40°
110° 120° 130° 140° 150° 160°
50°
50°
0
0
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 3.2 Population map of the world, with one dot representing 10,000 people. Population density in East Asia, notably China
and Japan, as well as in South Asia, including Bangladesh, India, and Pakistan, is extremely high. Population density in Northern Asia,
Africa, and South and North America is quite low, comparatively speaking. Three major and two minor areas of world population
concentration occur. These are (1) East Asia; (2) South Asia; (3) Europe; (4) Northeastern United States and Southeastern Canada;
(5) Southeast Asia, especially the country of Indonesia and the island of Java.
Chapter 3 • Population
61
SWEDEN
NORWAY
IRELAND
CANADA
RUSSIA
GERMANY
UNITED STATES
MONGOLIA
FINLAND
DENMARK
UNITED
KINGDOM
POLAND UKRAINE
IRAN
AFGHANISTAN
ROMANIA
FRANCE
GREECE
SPAIN
ITALY
PAKISTAN
JAPAN
TURKEY
IRAQ
SYRIA
MEXICO
CHINA
NEPAL
CUBA
BANGLADESH
SAUDI
ARABIA
ALGERIA
VENEZUELA
COLOMBIA
EGYPT
MOROCCO
YEMEN
VIETNAM
INDIA
SUDAN
NIGERIA
BRAZIL
PHILIPPINES
SOMALIA
ETHIOPIA
THAILAND
PERU
KENYA
CHILE
ARGENTINA
DEM. REP
CONGO
MALAYSIA
BRUNEI
TANZANIA
INDONESIA
SOUTH
AFRICA
20 Million
AUSTRALIA
1 Million
NEW
ZEALAND
The size of each nation is
proportional to its population
2010 U.S. Census Bureau Figures
FIGURE 3.3 Cartogram of world population. This map shows the area of each country in proportion to its population. Geographic
space has been transformed into population space. Asia dominates the map, especially China, with 1.3 billion people, and India, with
1.1 billion people. Europe is much larger than on a “normal” map of territories. Both South America and Africa show up much smaller
than their territorial size because their populations are relatively small.
TABLE 3.1 The World’s 10 Most Populous Countries, 2010
Country
China
India
United States
Indonesia
Brazil
Pakistan
Bangladesh
Nigeria
Russia
Japan
Population
2010
(millions)
1320
1173
310
243
201
184
156
152
139
126
% Annual
Growth
Rate
0.6
1.4
0.6
1.4
1.0
2.0
2.1
2.4
–0.4
–0.1
Estimated
Population
2050 (millions)
1437
1755
438
343
260
295
215
282
119
101
Source: World Population Data Sheet.
Several countries with the largest populations have relatively
low population densities. For example, the United States is
the fourth most populous country, but in 2005 it had a
population density of only 84 people per square mile.
Although they have significant and dense metropolitan
areas, the United States and Canada form one of the more
sparsely populated areas of the world.
Excluding countries with a very small area (e.g.,
Singapore), Bangladesh is the world’s most crowded
nation, where more than 148 million people are crowded
into an area the size of Iowa. Three of the 10 most
densely populated countries—the Netherlands, Japan, and
Belgium—are economically developed, whereas another
three—South Korea, Taiwan, and Israel—are newly industrializing countries (NICs). The remainder are clearly less
developed nations, reminding us that there is no clear
relationship between population density and economic
development.
Contrary to popular opinion, not all crowded countries
are poor. In fact, in the Sahel states of Africa, population
densities are very low. But what explains the fact that
many people in the Netherlands or Singapore live well on
so little land? Part of the explanation lies in their historical
development and position within the colonial and contemporary world systems. Part lies in their industrious people
and their ability to adapt to change. Part lies in the policies
of their governments, which encourage economic growth.
And part of the explanation lies in their history of trade or
their relative locations. Singapore is on one of the great
ocean crossroads of the world. But being on a crossroads
has worked no similar miracle for Panama. In 2008,
Singapore had a per capita income ($29,700) that was four
times that of Panama ($7300).
The World Economy: Geography, Business, Development
62
National population densities are abstractions that
conceal much variation within countries as well as among
them. Egypt had a reasonably low figure of 71 people per
square kilometer in 2005, but 96% of the population lives
on irrigated, cultivated land along the Nile Valley where
densities are extremely high. In China, the vast majority of
people live in the eastern third of the country, near the
Pacific Coast, where most of the large cities are concentrated
(Figure 3.4). Similarly, in the United States there are very
densely populated and sparsely populated areas (Figure
3.5). Large areas to the west of the Mississippi have few
people, whereas the Northeast is densely settled. The
island of Manhattan, for example, has a density that is
roughly the same as that of Hong Kong.
the edges of continents, in river valleys, at low elevations,
and in humid midlatitude and subtropical climates. Lands
deficient in moisture, and hence inhospitable to agriculture
(at least without widespread irrigation), such as the Sahara
Desert, are sparsely settled. Few people live in very cold
regions, such as northern Canada, arctic Russia, and northern Scandinavia, where growing seasons are short. Many
mountainous areas—whether because of climate, thin
stony soils, or steep slopes—are also low-density habitats.
Extreme caution must be exercised in ascribing population distribution to the natural environment alone. To
hold that climate or resources control population distribution is environmental determinism, a view long discredited
because it is simplistic and often factually incorrect.
Certainly climatic extremes, such as insufficient rainfall,
present difficulties for human habitation and cultivation.
However, given the forces of technology, the deficiencies
of nature increasingly can be overcome. Air-conditioning,
heating, water storage, and irrigation are examples of the
extensive measures that technology offers to residents of
otherwise harsh environments.
FACTORS INFLUENCING POPULATION
DISTRIBUTION
What explains the uneven distribution of the world’s people? One factor among many is the physical environment.
Most of the world’s people tend to be concentrated along
0
0
250
250
500 MILES
500 KILOMETERS
Hailar
Harbin
Jilin
Changchun
Yining
40°N
Ürümqi
Shenyang
Kashi
Baotou
Beijing
Tianjin
Yellow
Sea
Taiyuan
Jinan
Qingdao
Xining
Lanzhou
Zhengzhou
Xian
30°N
130°E
Nanjing
Shanghai
Chengdu
Lhasa
East
China
Sea
Wuhan
Chongqing
Changsha
Nanchang
Fuzhou
T’aipei
POPULATION DENSITY
ncer
Shantou
260–520
Guangzhou
Nanning
26–260
0–2.6
o f Ca
Kunming
Above 520
2.6–26
Tropic
Bay of
Bengal
Uninhabited
90°E
110°E
South China
Sea
20°N
PACIFIC
OCEAN
FIGURE 3.4 The distribution of China’s population. With 1.3 billion people, most of China’s population is clustered in the eastern half
of the country, where moister climates allow for an agricultural base. The western half, in contrast, is mountainous or very dry.
Chapter 3 • Population
63
45°
40°
35°
35°
ATLANTIC
OCEAN
PACIFIC
OCEAN
PERSONS PER SQUARE
MILE BY COUNTY (2000)
30°
120°
1000 or greater
70°
22°
160°
0
0
500.0–999.0
155°
200 MI.
100.0–499.0
0
200 KM.
0
400 MILES
0
400 KILOMETERS
60°
0
200
200
50.0–99.0
400 MILES
10.0–49.0
400 KILOMETERS
1.0–9.9
180°
0.0–0.9
160°
140°
95°
90°
85°
FIGURE 3.5 Distribution of the U.S. population, 2008. The densest regions of the United States include the metropolitan areas in the
Northeast, Midwest, and California. Much of the Midwest and intermontane West, in contrast, consists of low-density agricultural and
ranching areas.
If physical environments alone cannot explain the
world’s population distribution, what other factors are involved? Human distributions are molded by the organization
and development of economic and political systems. It is the
geography of economic activity—the labor markets, job opportunities, and infrastructures of urban areas—that generate
large, dense populations in developed and, increasingly, underdeveloped countries. Population sizes and distributions
are influenced by the demographic components of fertility,
mortality, and migration. Social disasters such as war or
famine may alter population distribution on any scale. Policy
decisions, such as tax policies or zoning and planning ordinances, are eventually reflected on the population map.
None of these factors, however, can be considered
without reference to historical circumstance. Present population distribution is explicable only in terms of the past.
Geographies are never created instantaneously, and the
location of the world’s people is the accumulation of forces
operating at the global, national, and local scales for centuries or longer. For example, the high population densities
of Europe or the northeastern United States reflect the accumulated impacts of the Industrial Revolution and its associated waves of urbanization. China’s large population was
centuries in the making, reflecting long periods of fertile
agriculture, irrigation, and a social system stretched over
vast areas. The distribution of people in the developing
world is largely a reflection of the centuries of colonialism,
which focused growth on coastal areas, the locations of the
port cities that were the centers of maritime trade in the
colonial world economy.
POPULATION GROWTH OVER TIME AND SPACE
The geography of the world’s population is never static
but is in constant change. The world’s population is
increasing, albeit at a decreasing rate. Each year an additional 76 million people inhabit the earth, which means
the planet adds 208,000 people daily, about 2.4 per
second. Many countries in Europe, Russia, and Japan, are
losing population as their deaths exceed births. The major
locus of world population growth is in the developing
countries, in which more than three-fourths of humankind
dwells. With 6.9 billion people already and another billion
expected by the year 2015, how will the developing world
manage? How will the vast population increase affect efforts to improve living standards? Will the developing
world become a permanent underclass in the world economy? Or will the reaction to an imbalance between population and resources be waves of immigration and other
spillovers to the developed countries?
Population Change
The current rapid growth rate of the world population is
a recent phenomenon. It took from the emergence of
humankind until 1850 for the world population to reach
1 billion. The second billion was added in 80 years
64
The World Economy: Geography, Business, Development
(1850–1930), the third billion was added in 30 years
(1931–1960), the fourth in 16 years (1960–1976), the fifth
in only 11 years (1977–1987), and the sixth in 12 years
(1987–1999).
Like all living things (and some that are inanimate,
such as your savings account), human populations have
the capacity to grow rapidly. Thus, the historical pattern of
population growth shown in Figure 3.8 looks like an explosion. We can express this idea using the notion of
doubling times—the number of years that it takes a population to double in size, given a particular rate of growth.
In general, the doubling time for a population can be
determined by using the rule of 70, which means that you
divide 70 by the average annual rate of growth. For example, at 1.2%, the average rate of world population increase,
the doubling time is 58 years, which means that in the year
2068 the world may have 14 billion people if current rates
of growth continue unchanged. At an annual increase of
0.6% per year, the doubling time for the U.S. population is
116 years (meaning, if the current rate continues unchanged, the United States will have 600 million people in
2126). As growth rates increase, doubling times decrease
accordingly.
The vast bulk of the world’s population growth is
occurring in the developing world. Of the continents,
Africa has the fastest rate of growth. In 2008, the population of Africa was growing by 2.4% per year. Malawi, with
a population growth rate of 3.2% per year, the highest in
the world, will see its population double in just 22 years.
Rapidly declining death rates and continued high birth
rates are the cause of this explosion. Death rates have
been falling to fewer than 10 deaths per 1000 people each
year in Asia and Latin America, and to about 13 per 1000
in Africa. Crude birth rates are changing less spectacularly.
They are highest in Africa (37 births per 1000 people annually), Latin America (21 per 1000), and Asia (19 per 1000).
These latter figures compare with crude birth rates of 11
per 1000 in Europe and 14 per 1000 in North America.
The world population was 6.9 billion in 2010, and the
United Nations projects it will reach 9 billion in 2050.
Almost all of this increase will occur in the developing
countries. The largest absolute increase is projected for
Asia, reflecting its huge population base. Future population growth will further accentuate the uneven distribution
of the world’s population. In 2010, 80% of the world’s
population lived in the developing world, but by the year
2050, the proportion will increase to 90%.
The rate of natural increase for a country or a region is
measured as the difference between the birth rate and the
death rate. Births and deaths represent two of the three
basic population change processes; the third is migration.
Every population combines these three processes to generate its pattern of growth. We can express the relationship
among them using the equation
Population change = Births - Deaths
+ In-migration - Out-migration, or,
¢P = BR - DR + I - O,
where ¢P represents the rate of population change, BR is
the crude birth rate, DR is the crude death rate, I is the total
in-migration rate (immigration, if internationally), and O is
the total out-migration rate (or emigration, if internationally).
The natural growth rate (NGR)—the most important component of population change in most societies—is defined
as the difference between the birth and death rates:
NGR = BR - DR,
while net migration rates (NMR) are the difference between in-migration and out-migration rates:
NMR = I - O.
Thus,
¢P = NGR + NMR,
where NGR is the natural growth rate and NMR is the net
migration rate.
For the world as a whole, net migration is obviously
zero. However, for any scale smaller than the globe, both
natural growth and net migration must be included.
Natural increase accounts for the greatest population
growth in most societies, especially in the short run.
However, in the long run, migration contributes significantly because the children of immigrants add to the
population base.
Fertility and Mortality
The immediate cause for the surge in the growth of the
world population is the difference between the crude birth
rate and the crude death rate. The crude birth rate is the
number of babies born per 1000 people per year, and
the crude death rate is the number of deaths per 1000 per
year. For example, the U.S. birth rate in 2010 was 14 and the
death rate was 8; the growth rate was therefore 14 minus 8,
or 6 per 1000, which is a natural growth rate of 0.6%.
Birth rates fluctuate over time, in response to changing
economic and political circumstances and cultural values
about having children. In the United States, crude birth
rates rose sharply after World War II, producing the baby
boom. The children of the baby boom, Generation X,
were born largely in the 1980s and 1990s.
MALTHUSIAN THEORY
One of the first social scientists to tackle the matter of
population growth and its consequences was the British
Reverend Thomas Robert Malthus (Figure 3.6). Malthus’s
ideas, contrived in the early days of the Industrial
Revolution in the late eighteenth century, had an enormous
impact on the subsequent understanding of this topic. He
offered his most concise explanation in his 1798 book,
Essay on the Principle of Population Growth. Malthus was
concerned with the growing poverty evident in British
Chapter 3 • Population
cities at the time, and his explanation was largely centered
on the high rates of population growth that he observed,
which are common to early industrializing societies. Thus,
it is with Malthus that the theory of overpopulation originates. His pessimistic worldview earned economics the
label of the “dismal science” and stood in sharp contrast to
the utopian socialism emanating from France in the aftermath of the French Revolution of 1789.
The essence of Malthus’s line of thought is that human
populations, like those of most animal species, grow exponentially (or in the parlance of his times, geometrically). A
geometric series of numbers increases at an increasing rate
of time. For example, in the sequence 1, 2, 4, 8, 16, 32,
and so on, the number doubles at each time period, and
the increase rises from 1 to 2 to 4 to 8 and so forth.
Exponential population growth, in the absence of significant constraints, is widely observed in bacteria and rodents,
to take but a few examples from zoology. Note that there
is an important assumption regarding fertility embedded in
Malthus’s analysis here: He portrayed fertility as a biological inevitability, not a social construction. This argument
was in keeping with the large size of British families at
the time and the excess of fertility over mortality.
In short, in Malthus’s view, humans, like animals, always
reproduced at the biological maximum; they were, and
are, portrayed as prisoners of their genetic urges to repro-
duce. It is worth noting that Reverend Malthus’s argument
carried with it a strong moral dimension: It was not just
anyone who reproduced rapidly, he observed, but most
particularly the poor.
Second, Malthus maintained that food supplies, or
resources more generally, grew at a much slower rate than
did population. Specifically, he held that the food supply
grew linearly (or arithmetically, in his terminology). An
arithmetic sequence of numbers, in contrast to an exponential one, grows at a constant rate over time. For example, in
the sequence 1, 2, 3, 4, 5, and so on, the difference from
one number to the next is always the same. Malthus’s view
that agricultural outputs increased linearly over time reflected the preindustrial farming systems that characterized his
world. In such circumstances, without economies of scale,
an increase in outputs is accomplished only with a proportional increase in inputs such as labor, reflective of what
economists call a linear production function. However, this
view of agricultural output is actually rather optimistic by
Malthus’s reckoning. He argued that in the face of limited
inputs of land and capital, agricultural output was likely to
suffer from diminishing marginal returns. For example,
as farmers moved into areas that were only marginally hospitable to crops, perhaps because they are too dry, too wet,
too cold, or too steep, they would need increases in inputs
that are proportionately much larger than the increases in
output. Diminishing returns, he held, would actually lead
to increases in agricultural output that were smaller than a
linear production function (with no economies of scale, see
Chapter 5) would generate (Figure 3.7).
When one plots the exponential growth of population
against the linear growth of food supplies (Figure 3.8), it is
clear that sooner or later, the former must exceed the latter.
Thus, in the Malthusian reading, populations always and
inevitably outstrip their resource bases, and people are condemned to suffering and misery as a result. Malthus blamed
much of the world’s problems on rapid population growth,
and subsequent generations of theorists influenced by his
thoughts have invoked overpopulation to explain everything
from famine to crime rates to deviant social behavior.
Malthus himself entered into a famous debate with his
friend David Ricardo over whether the British government
should subsidize food for the poor, Malthus maintaining that
Output
FIGURE 3.6 Thomas Robert Malthus was an influential theorist
who started the idea of overpopulation. His pessimistic views of
food and demographic growth influenced many early political
economists, earning the discipline the nickname “the dismal
science.”
65
Inputs - >
FIGURE 3.7 Diminishing marginal returns, proposed by Malthus,
set in when increases in inputs (e.g., land, labor) fail to generate
equal increases in outputs. This process leads to declining
productivity growth. To some extent, diminishing returns can
be offset by technological change.
66
The World Economy: Geography, Business, Development
Malthusianism thus attributes to rapid population
growth a variety of social ills, including poverty, hunger,
crime, and disease.
Malthus refined his argument to include checks to
population growth. Given that natural population growth
is the difference between fertility and mortality, “preventative checks” are factors that reduce the total fertility rate.
Contraceptives are an obvious example, although Malthus
objected to their use on religious grounds, advocating
instead moral restraint or abstinence. Other preventative
checks include delayed marriage and prolonged lactation,
which inhibits pregnancy. Should preventative checks fail,
as he predicted they would, population growth would
ultimately be curbed by “positive checks” that increased
the mortality rate, particularly the familiar horsemen of the
Apocalypse—death, disease, famine, and war.
Malthus’s ideas became widely popular in the late
nineteenth century, particularly as they were incorporated
into the prevailing social Darwinism of the time, which
represented social change in biological terms, often naturalizing competition as a result. However, to many observers it
became increasingly apparent that his predictions of widespread famine were wrong. The nineteenth century saw
the food supply improve, prices decline, and famine and
malnutrition virtually disappear from Europe (except for
the Irish potato famine of the 1840s). By the early twentieth century, Malthusianism was in ill repute.
Critics noted that Malthus made three major errors.
First, he did not foresee, and probably could not have
foreseen, the impacts of the Industrial Revolution on
agriculture; the mechanization of food production simply rendered the assumption of a linear increase untenable (Figure 3.9). Indeed, the world’s supply of food has
consistently outpaced population growth, meaning that
productivity growth in agriculture has been higher
than the rate of increase in the number of people. This
observation implies that there is plenty of food to feed
Arithmetic and Geometric Growth Curves
Geometric
Increase
(population)
40
35
Amount
30
Arithmetic
Increase
(food)
25
20
15
10
5
0
0
1
2
3
4
5
6
Time
FIGURE 3.8 Malthus’s argument contrasted the geometric
(exponential) increases in population with arithmetic (linear)
increases in the food supply. Eventually, the demand for food,
or resources more generally, must exceed the supply, leading
to famine. However, critics noted that Malthus’s conceptions
were flawed by their simplistic treatment of production, as
well as the determinants of fertility.
such subsidies only encouraged the poor to have more
children and thus exacerbated poverty in the long run.
Indeed, he was contemptuous of the poor, blaming them
for their poverty, and even advocating mass death to keep
their numbers in check:
Instead of recommending cleanliness to the
poor, we should encourage contrary habits. In
our towns we should make the streets narrower,
crowd more people into the houses, and court
the return of the plague. . . . The necessary
mortality must come.
World Food Production and Population
What Malthus Expected
16
300
Population
Food Production
1951 = 100
250
12
Population
200
8
Food Production
150
4
100
0
1
2
3
Year
4
5
0
1951 55
60
65
70
75
80
85 90
95 2000
Year
FIGURE 3.9 Malthus’s predictions of catastrophe were belied by the productivity gains and declining fertility
unleashed by the Industrial Revolution. Since World War II, the world’s food supply has increased more quickly than its
population, indicating that the causes of hunger are not simply reducible to population growth, but involve complex
political questions about colonial legacies, uneven development, corrupt governments, and war and conflict.
Chapter 3 • Population
Estimated population
without collapse
World Oil
Production
Natural
Resources
Estimated
population
with collapse
Life
Expectancy
67
FIGURE 3.10 Neo-Malthusians, such as the Club of
Rome, revived Malthus’s arguments in the 1960s by
using computer models of the world economy,
population growth, and resource usage. They included
ecosystems in their analysis and predicted that in the
long run, his predictions still had merit. Unlike
Malthus, however, neo-Malthusians advocate the use
of birth control.
Population
ut
Food
Outp
Industrial
Pollution
1900
2000
Year
everyone in the world and that hunger is not simply
caused by overpopulation, but by a variety of other factors, including politics.
Second, Malthus did not foresee the impacts of the
opening up of midlatitude grasslands in much of the
world, particularly in North America, Argentina, and
Australia, which increased the world’s wheat supplies
during the formation of a global market in agricultural
goods. Third, and perhaps most important, Malthus’s
analysis of fertility was deeply flawed. During the
Industrial Revolution, total fertility rates declined and
family sizes decreased. Thus, contrary to his expectation,
humans are not mere prisoners of their genes and the
birth rate is a socially constructed phenomenon, not a
biological destiny.
In the 1960s, when the world experienced average
population growth rates in excess of 2.6% annually,
Malthusianism underwent a revival in the form of
neo-Malthusianism. Neo-Malthusians acknowledged the
errors that Malthus made but maintained that while he
may have been wrong in the short run, much of his
argument was correct in the long run. In keeping with the
growing environmental movement of the times, neoMalthusians also added an ecological twist to Malthus’s
original argument. The most famous expression of neoMalthusian thought was the Club of Rome, an international
organization of policy makers, business executives,
scholars, and others concerned with the fate of the planet.
The Club of Rome funded a famous study of the planet’s
future, published as The Limits to Growth (1972), which
modeled the earth’s population growth, economic expansion and resource consumption, and energy and environmental impacts (Figure 3.10). It concluded that the rapid
population and economic growth rates of the post–World
War II boom could not be sustained indefinitely and that
ultimately there would be profound worldwide economic,
environmental, and demographic crises. Much of this
argument was framed in terms of the exhaustion of nonrenewable resources such as oil and ecological catastrophe. Indeed, the last half century has indeed witnessed
2100
massive degradation of ecosystems around the world,
and some resources such as petroleum have already
passed their peak production year. Unlike Malthus, neoMalthusians advocated sharply curtailing population
growth through the use of birth control and had an
important impact on international programs promoting
contraceptives and family planning, such as the Peace
Corps and Agency for International Development.
While neo-Malthusianism retains a credibility that the
original Malthusian doctrine does not, it, too, suffered from
a simplistic understanding of how resources are produced
(e.g., when the price of oil rises, corporations find more
oil). Blaming overpopulation for all the world’s problems
is simplistic, skips over the historical forces such as colonialism that generate poverty, and ignores major issues
such as government policy. For example, is the crowding
of a train in a developing country (Figure 3.11) the result
of overpopulation or the lack of investment in transportation services? In addition, family-planning programs in the
FIGURE 3.11 The trains are crowded in Bangladesh. Here, in one
of the world’s most fertile lands, the combination of high
population density and the concentration of land into fewer and
fewer hands contribute to continuing poverty and hunger.
68
The World Economy: Geography, Business, Development
Case Study
Population and Land Degradation
Human population growth is a leading force in global
land degradation and environmental change. Global
population increased from 5 billion in 1987 to 6.9 billion
in 2010, an average annual growth rate of 1.4%, with
Africa recording particularly high growth rates. This
population increase, together with the gap between rich
and poor and discrepancies in income-earning opportunities, has increased the demand for food and energy,
putting pressure on available environmental resources
such as fresh water, fisheries, agricultural land, and
forests.
Population growth has resulted in increased demand for agricultural productivity, higher incomes, and
changes in consumption patterns. Inequitable land distribution, a legacy of colonialism and political conflicts,
has exacerbated the problem. Land degradation is especially acute in developing countries where a significant
portion of the population is dependent on subsistence
farming.
Poverty also is a major cause of land degradation,
with population growth and poverty reinforcing each
other to bring about a spiral of decline in soil fertility.
Neo-Malthusians warn that population growth will
outstrip the natural supplies of food, water, and shelter. The neo-Malthusian theory further regards population growth and the environment to be in conflict,
with the quest for food security coming at huge inevitable environmental costs, ultimately leading to an
escalation in land degradation, a decline in agricultural productivity, and greater food insecurity. The
argument effectively states that the world would literally run out of food unless drastic steps are taken to
protect the environment from people. Simultaneously,
common property tenure systems also exacerbate the
utilization of common property resources, leading to
overutilization and degradation from elements such as
overgrazing. People (especially the rural poor) have
been blamed for misusing the resources at their disposal for short-term gains. Such land misuse is accentuated by the coping strategies employed in the face of
food insecurity.
In contrast to the Malthusian view, food security
and the environment are considered to be complementary and interdependent, with a healthy natural resource
base providing food security. It is argued that population increase and income growth drive technological
inventions such as agricultural intensification to solve
food production constraints, thus achieving environmental and economical sustainability. It is further ar-
gued that the neo-Malthusian perception disregards the
potential for economic development within sustainable
environments when confronted with rapid population
growth, and assumes that agro-ecological zones have
limited carrying capacities. Population growth, food
security and a healthy natural resource base are viewed
as interdependent and mutually reinforcing for positive
gain to both.
Land degradation as a global development issue
directly impacts the natural resource base that supports
subsistence livelihoods, agriculture, and manufacturing,
limiting development opportunities for current and
future generations. For example, deforestation and
biodiversity loss affect income from tourism and contribute to food insecurity, challenging the eradication of
extreme poverty and hunger. Land degradation occurs
through various processes, including loss of vegetation,
soil erosion leading to loss of fertility, declining soil biodiversity, and soil compaction, which leads to reduced
infiltration and increased runoff salinity. Other effects of
land degradation processes include water pollution, siltation of watercourses and reservoirs, and loss of animal
and plant diversity, leading to loss of ecological functions. Land degradation is often viewed as a trigger for
disasters such as landslides.
Land-use change has both negative and positive
effects on human well-being and on the provision of
ecosystem services. Positive changes include more food
and forestry products that have resulted in increased income and secure livelihoods. Negative changes include
biodiversity loss and disturbances of biophysical cycles
(e.g., water and nutrients) that impinge on human welfare in many regions. Soil erosion, particularly in the
rural regions where the majority of the population
resides, may reduce agricultural yields, resulting in
increased food insecurity, famine, and poverty, as well
as forced migration, especially for impoverished people
and countries. Demand for more food production contributes to overexploitation of good agricultural soil and
expansion into wooded and environmentally marginal
areas that are susceptible to degradation. Processes such
as clearing of woodlands, logging, firewood collection,
and charcoal production lead to deforestation. The highest rates of deforestation occur in areas where hunger is
prevalent. Land degradation consequences can induce
declines in forest products and wild foods and worsen
levels of poverty and malnutrition, especially since these
resources are harvested often as coping strategies in the
face of droughts and floods.
Crude Birth and Death Rates per 1000
Chapter 3 • Population
Stage 2
Stage 1
Stage 3
Stage 4
50
Modern
Stability
40
30
20
Rate of
Population Growth
Primitive
Stability
10
0
Low growth
High growth
High growth
Crude birth rate per 1000
Low growth
69
FIGURE 3.12 The demographic transition. Four
stages of demographic change are experienced by
countries as they develop from preindustrial to
modern. Stage 1: Birth rates and crude death rates
are both high; the resulting natural increase is
quite low. Stage 2: A declining death rate, but a
continually high birth rate, result in an increasing
population growth rate. Stage 3: Death rates
remain low, while birth rates start to decline
rapidly, resulting in a rapid but declining growth
rate. Stage 4: Both death rates and birth rates are
low, resulting in a low natural increase. The
important issue here is why these rates decline
(i.e., the social forces that change birth and
death rates).
Crude death rate per 1000
developing world have often failed to live up to expectations, often for the simple reason that simply advocating
contraception to curb population growth ignores the
fundamental economic reasons why people in impoverished countries have large families and many children. In
short, whatever its merits, neo-Malthusianism must be
viewed in light of other models of population growth that
originate from different premises and often arrive at different conclusions.
DEMOGRAPHIC TRANSITION THEORY
Developed by several American demographers in the
1950s, the demographic transition theory stands as an important alternative to Malthusian notions of population
growth. Essentially, this is a model of a society’s fertility,
mortality, and natural population growth rates over time.
Because this approach is explicitly based on the historical
experience of Western Europe and North America as they
went through the Industrial Revolution, time in this
conception is a proxy for industrialization and all of its
economic, social, and geographic characteristics. In short,
the demographic transition examines how birth, death,
and growth rates change, and, more important, why they
change, as a society moves from a rural, impoverished,
and traditional context into a progressively wealthier,
urbanized, and modern one. This approach can be
demonstrated with a graph of birth, death, and natural
growth rates over time that divides societies into four
major stages (Figure 3.12). Each stage is discussed here
in detail.
Stage 1: Preindustrial Society
In the first stage, a traditional, rural, preindustrial society
and economy, total fertility rates are high; families are
large, and most women are pregnant much of the time
(Figure 3.13). Thus, impoverished countries such as
Rwanda have exceptionally large families (8.5 children per
mother, in contrast to wealthy ones in Europe, North
America, and some of the NICs in Asia, where women
have on average fewer than 2 children apiece).
Traditionally, total fertility rates in preindustrial societies have been very high for a variety of reasons. In
agrarian economies, children are a vital source of farm
labor, helping to plant and sow crops, tend farm animals,
perform chores, carry water and messages, and watch
over younger siblings (Figure 3.14). Econometric studies
reveal that even children as young as 4 can generate
more income than they consume. Even in North America,
summer school vacations were created so that school
kids could help their families on the farm. Families in this
context are typically extended, with several generations
Fertility Rates Around the World
Highest
Lowest
Macau
0.91
Niger
7.68
Hong Kong
1.04
Uganda
6.73
Singapore
1.10
Mali
6.54
Taiwan
1.15
Somalia
6.44
Japan
1.20
Burundi
6.25
South Korea
1.22
Burkina
Faso
6.21
Montserrat
1.23
Dem. Rep.
of the Congo
6.11
Lithuania
1.24
Belarus,
Czech Republic
Ethiopia
6.07
1.25
Angola
6.05
Averages
Industrialized Countries
1.9
Developing Countries
3.6
World
3.3
FIGURE 3.13 Fertility rates around the world vary widely. The
average number of children each woman may expect to have
ranges from as little as 1.3 in Italy to as high as 8.5 in impoverished
nations such as Rwanda. These patterns reflect the dynamics of the
demographic transition and the social forces that lead people in
different societies to have large or small families.
70
The World Economy: Geography, Business, Development
FIGURE 3.14 The use of child labor is widespread throughout the developing world and is a major driver of high fertility rates. Children
are used for a variety of tasks, including planting, weeding, and harvesting crops; tending to livestock; carrying water and firewood; and
caring for one another. In urban areas, children often work in factories, on the streets selling items, or as sex workers. Often, such children
are highly vulnerable and are brutally exploited, and may be paid virtually nothing.
living together. In addition, children are important resources for taking care of their elderly parents; in the
absence of institutionalized social programs such as
Social Security, the aged depend on their offspring
for assistance. Finally, in such societies with high infant
mortality rates, having many children is a form of insurance that some proportion will survive until adulthood. In short, there are very clear reasons why poor
societies have high crude birth rates. In contrast to
Malthusianism, which explains this observation by an
appeal to human genetics, the demographic transition
portrays high total fertility rates as a rational strategic response to poverty.
Thus, a map of crude birth rates around the world
(Figure 3.15) reveals that the poorest societies have the
highest rates in the world, particularly in Africa and most
of the Middle East. In contrast, for reasons we shall soon
see, crude birth rates in North America, Europe and Russia,
Japan, Australia, and New Zealand are relatively low. The
world’s lowest birth rates are found in Spain and Italy. In
societies with high birth rates, the age distribution of
populations tends to be young. Thus, the proportion of the
population aged less than 18 (the median age in many
developing countries) is a reflection of high total fertility
rates (Figure 3.16).
However, in preindustrial societies, mortality rates are
also typically quite high, which means that average life
expectancy is relatively low. The primary causes of death
in poor, rural contexts are the result of inadequate diets,
particularly protein, which weaken the immune system, as
well as unsanitary drinking water and bacterial diseases.
The most common diseases in this context are diarrheal
ones which lead to dehydration, including cholera, as well
as others such as dengue fever, schistosomiasis, bilharzia,
malaria, tuberculosis, plague, and measles, although
historically smallpox was also important. Table 3.2 lists the
most dangerous infectious diseases in the world in 2009,
including respiratory infections brought on by pneumonia
and influenza (which kill 3.9 million annually); AIDS,
which takes 2.8 million lives annually (especially in
Chapter 3 • Population
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
Tropic of Cancer
20°
20°
160°
PACIFIC
10°
OCEAN
BAY OF
BENGAL
10°
10°
Equator
0°
20°
ARABIAN
SEA
50°
0°
60°
70°
80°
INDIAN
10°
10°
140°
90°
OCEAN
10°
120°
20°
CRUDE BIRTH RATE
(PER 1,000 PERSONS)
40 and above
30°
20°
20°
30°
30°
40°
40°
50°
50°
150°
150°
Tropic of Capricorn
30°
160°
170°
CORAL SEA
20°
20°
20°
30°
30°
30–39
40°
20–29
180°
110° 120° 130° 140° 150° 160°
Below 20
50°
40°
40°
50°
0°
0°
1,000
2,000
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 3.15 The geography of crude birth rates around the world closely reflects the level of economic development.
Generally, the poorest societies have the largest families. Africa and much of the Muslim world tend to have the highest
fertility levels. In these circumstances, the need for child labor, particularly on farms, is the predominant motive. In
economically advanced societies, this need is mitigated, and the opportunity costs of raising children rises, so families are
smaller. Thus, birth rates in Europe, Japan, the United States and Canada, and Australia are low.
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
20°
20°
160°
PACIFIC
10°
OCEAN
0°
10°
20°
30°
Tropic of Cancer
10°
Equator
40–44
BAY OF
BENGAL
10°
50°
0°
60°
70°
80°
INDIAN
PERSONS UNDER AGE 18
(PERCENTAGE OF
POPULATION)
45 and above
20°
ARABIAN
SEA
10°
140°
90°
OCEAN
10°
120°
20°
20°
30°
30°
40°
40°
50°
50°
150°
20°
Tropic of Capricorn
30°
150°
160°
170°
CORAL SEA
20°
20°
30°
30°
30–39
40°
20–29
Below 20
50°
No data
40°
40°
110° 120° 130° 140° 150° 160°
50°
0
0
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 3.16 The proportion of each country’s population below the age of 18 is closely correlated with total fertility rates. In
poor, rural societies, where birth rates are high and families large, a large share of the people (often more than half) are younger
than 18, particularly in Africa and parts of the Arab world. In contrast, in more developed states with lower birth rates and
smaller families, the median age rises; in the First World, the fastest-growing age groups are the middle-aged and elderly.
71
72
The World Economy: Geography, Business, Development
TABLE 3.2 World’s Most Dangerous Infectious Diseases,
2009 (millions of victims annually)
Respiratory infections
AIDS
Diarrheal diseases
Tuberculosis
Malaria
Measles
3.9
2.8
1.8
1.6
1.3
0.6
Source: World Health Organization.
Africa); diarrheal diseases, which deplete the body’s
nervous system of electrolytes; and tuberculosis, which
kills 1.8 million. Because disease and malnutrition are
ever-present threats to people in poor societies, including
particularly the very young, the most vulnerable, infant
mortality rates are also high, and a significant proportion
of babies do not live to see their first birthday.
The world geography of death rates (Figure 3.17) thus
closely reflects the wealth or poverty of societies (including
their historical development and role in the global economy), which in turn is manifested in a variety of issues that
shape national mortality rates: the amount, quality, and consistency of adequate food; access to health care; the public
health infrastructure; care for expectant mothers, babies, and
young children; smoking rates; and several other factors.
Countries with the highest death rates—and thus lowest life
expectancies—are found primarily in sub-Saharan Africa,
although Afghanistan, Pakistan, Bangladesh, Russia, and
central Asian states also have relatively high death rates.
Conversely, the developed world, as well as Latin America,
China, and India, has relatively low death rates.
Life expectancy throughout most of human history has
been relatively low, often only in the twenties, although
once people survived infancy their chances of living to old
age improved considerably. The geography of life expectancy around the world (Figure 3.18) closely reflects
that of crude death rates but is also shaped by differences
in standards of living. Living for a long time is a luxury
enjoyed by the populations of economically developed
societies, while people in most of Africa, the Middle East,
and Russia tend to die before they reach age 70.
Because both fertility and mortality rates are high, the
difference between them—natural population growth—is
relatively low, often fluctuating around zero. Thus, although families are large and parents have many children,
growth rates are curtailed by malnutrition, disease, and infant mortality. For this reason, for thousands of years,
human growth rates worldwide have been very slow, occasionally even negative, and new arrivals to a community
were welcomed (Figure 3.1). Indeed, prior to Malthus,
rapid population growth was celebrated as a way to increase the local labor force, diversify the division of
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
20°
20°
160°
PACIFIC
10°
OCEAN
0°
Tropic of Cancer
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
Equator
50°
0°
60°
70°
80°
INDIAN
10°
10°
140°
90°
OCEAN
10°
120°
20°
30°
CRUDE DEATH RATE
(PER 1,000 PERSONS)
20 and above
20°
20°
30°
30°
40°
40°
50°
50°
150°
20°
Tropic of Capricorn
30°
150°
160°
170°
CORAL SEA
20°
20°
30°
30°
15–19
40°
50°
10–14
Below 10
40°
40°
110° 120° 130° 140° 150° 160°
50°
0°
0°
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 3.17 Like birth rates, the geography of crude death rates also closely mirrors the level of economic development.
The poorest countries, especially in sub-Saharan Africa, have high death rates, largely due to inadequate diets, infectious
diseases such as malaria, and contaminated water supplies. Russia, which is relatively more developed, has a remarkably
high death rate due to the economic collapse it suffered in the 1990s and the spread of diseases such as tuberculosis. In
much of the rest of the world, in contrast, including even in poor countries like China and India as well as the First
World, death rates have gone down and life expectancy has increased due to adequate food supplies and public health
infrastructures.
Chapter 3 • Population
73
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
20°
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PACIFIC
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Tropic of Cancer
20°
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BAY OF
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10°
10°
Equator
50°
0°
60°
70°
80°
INDIAN
10°
20°
LIFE EXPECTANCY AT BIRTH
(IN YEARS)
75 and above
10°
40°
60–69
20°
50–59
30°
30°
40°
40°
50°
50°
20°
Tropic of Capricorn
30°
40°
Below 50
50°
150°
OCEAN
10°
120°
20°
70–74
30°
140°
90°
150°
160°
20°
30°
30°
40°
110° 120° 130° 140° 150° 160°
50°
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CORAL SEA
20°
0°
0°
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 3.18 A world map of life expectancy at birth reveals that people in wealthier countries live longer than those in
poorer ones. Whereas the inhabitants of impoverished societies such as Mali or Chad cannot expect to live beyond age 50,
the average age at death for those in Europe, Japan, Australia, the United States, and Canada is over 75. Life expectancies
are thus closely correlated with people’s access to adequate nutrition, public health, and health care.
labor, and raise standards of living. While relatively few
societies in the world live in the circumstances described
here—that is, few people today live isolated from the
world economy and its demographic aftermath—Stage
1 may be held to describe certain tribes in parts of central
Africa, Brazil, or Papua New Guinea.
Stage 2: Early Industrial Society
The second stage of the demographic transition pertains to
societies in the earliest phases of industrialization, when
manufacturing jobs are growing in urban areas. Such conditions pertain, for example, to the Britain of Malthus’s
day, the United States in the early nineteenth century, or
selected countries in the developing world today, such as
Mexico or the Philippines (although these countries have
experienced fertility declines). In this context, economic
changes in the labor market as well as in consumption,
particularly diet and public health care, have important demographic consequences.
Early industrial societies retain some facets of the
preindustrial world, particularly high total fertility rates.
Because most people still live in rural areas, children
remain an important source of farm labor. The major
difference is the decline in mortality rates, which leads
to longer life expectancies. Why do mortality rates
decline as societies industrialize? One often-claimed
reason is access to better medical care, particularly access to hospitals and vaccinations from diseases, an
assertion frequently advocated by those in the health
care occupations.
However, the historical evidence does not sustain this
view; early hospitals were often filthy, and patients may
have been more likely to die in them than if they stayed
home! Moreover, the introduction of vaccinations often
came after, not before, declines in deaths due to many
diseases occurred. For example, in the United States, the
vaccines for measles, scarlet fever, typhoid, diphtheria,
tuberculosis, and pneumonia, which were invented in the
1920s, 1930s, and 1940s, all occurred after the majority of
the declines in the death rate from each disease in the first
two decades of the twentieth century (Figure 3.19).
Indeed, rather than private health care providers, it was
public health measures, particularly clean drinking water
and sewers, that played a significant role in lowering
diseases. Better housing was also important. Finally, the
industrialization of agriculture and cheaper food, which
led to better diets, was vital in improving immune systems
and raising life expectancies, including lowering infant
mortality rates (percent of babies who die before their
first birthday).
Death rates for different demographic groups do not
drop evenly as an economy develops over time. Infant
mortality rates tend to drop earliest and most quickly. It
was not uncommon in premodern societies to find an
infant mortality rate in excess of 200 infant deaths per 1000
live births—20% or more of all babies died before reaching
their first birthday. Nowhere in the world today are rates
that severe, but the highest rates are found in sub-Saharan
Africa (Figure 3.20), where poverty, lack of adequate diets,
disease, inadequate drinking water, and insufficient health
care services conspire to kill 10% of all infants before age 1.
74
The World Economy: Geography, Business, Development
FIGURE 3.19 Death rates due to nine infectious diseases
in the United States from 1900 to 1973 reveal that the
bulk of the declines occurred prior to the introduction of
inoculations or medical cures. Thus, the major reasons for
lower mortality rates as societies develop economically are
not linked to physicians and hospitals, but to better diets
and public health measures such as clean water and
garbage removal. Countries of the world must address
expanding populations and the explosions of new diseases
and must make sense of the vast array of scientific new
breakthroughs and technologies. As with any challenge of
this scope, successful solutions demand teamwork and this
teamwork will require balancing interests among a diverse
group of stakeholders: patients, physicians, payers, policy
makers, and pharmaceutical companies. More difficult
still, this balancing must reach around the world, as the
business and science of health are becoming increasingly a
global concern. For example, evolving infectious diseases
can now move rapidly between countries, raising the
threat of pandemic.
Measles
Scarlet Fever
0.10
0.10
0.05
0.05
Vaccine
0.00
Penicillin
0.00
Tuberculosis
Typhoid
2.0
1.5
0.3
1.0
0.2
Izoniazid
0.5
0.0
0.1
Chloramphenicol
0.0
1900
1920
1940
1960
1900
1920
1940
1960
Influenza
Pneumonia
0.8
1.5
0.4
Vaccine
Sulphonomide
1.0
0.0
0.5
Whooping Cough
0.0
Vaccine
0.2
0.0
Diphtheria
Poliomyelitis
0.4
0.00
0.0
1900
Because the drop in the death rate disproportionately
affects the very young, it acts much like an increase in the
birth rate—more babies survive to grow to adulthood. Life
expectancies likewise increase. One of the reasons
the very young are more affected is that, as the death rate
drops, it does so initially because communicable diseases
are brought under control, and the very young are particularly susceptible to such diseases. The control of communicable disease has the serendipitous economic side effect
of reducing the overall illness level in society, thus promoting increased labor productivity. Workers miss fewer
days of work, are healthier when they do work, and are
able to work productively for more years than when death
rates are high. Eventually, as death rates drop, the timing
Vaccine
0.02
Taxoid
0.2
1920
1940
1960
1900
1920
1940
1960
of death shifts increasingly to the older ages, to the years
beyond retirement when the economic impact on the
labor force is minimal. Although death rates have declined
throughout the world, mortality is usually, but not always,
lowest in the developed world (especially in northwest
Europe and in Japan) and highest in the underdeveloped
world (especially in sub-Saharan Africa). Variations in
fertility tend to be more pronounced, with much higher
levels in the developing world.
In early industrial societies, because the death rate has
dropped but the birth rate has not, the natural growth rate
grows explosively. This situation characterized the world
Malthus observed at the end of the eighteenth century and
is evident in a wide number of countries in the developing
Chapter 3 • Population
75
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
20°
20°
160°
PACIFIC
10°
OCEAN
0°
Tropic of Cancer
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
Equator
50°
0°
60°
70°
80°
INDIAN
10°
10°
INFANT MORTALITY RATE
(PER 1,000 LIVE BIRTHS)
20°
100 and above
30°
50–99
30°
30°
40°
40°
50°
50°
150°
OCEAN
10°
120°
20°
20°
140°
90°
20°
Tropic of Capricorn
30°
150°
160°
170°
CORAL SEA
20°
20°
30°
30°
25–49
40°
50°
40°
10–24
Below 10
40°
110° 120° 130° 140° 150° 160°
50°
0°
0°
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 3.20 The geography of infant mortality rates is perhaps the most sensitive and optimal measure of economic
development. The capacity of societies to protect their most vulnerable members—babies—reflects their parents’ access to
nutrition and clean water and exposure to infectious diseases. Poor countries suffer from high rates of infant deaths, often
exceeding 100 deaths per 1000 births (e.g., much of Africa, Afghanistan, Iraq); people in the economically developed world,
in contrast, can expect that the vast majority of babies will live past their first birthday.
world today. In short, poor countries have rapid increases
in population not because they have more children than
before, but because fewer people die earlier.
Stage 3: Late Industrial Society
Societies in the throes of rapid industrialization, in which a
substantial share, if not the majority, lives in cities, exhibit
a markedly different pattern of birth, death, and growth
rates than those earlier in the transition. Death rates remain relatively low, for the reasons discussed earlier. What
is different is that total fertility rates also exhibit a steady
decline. It is important to note that declines in crude birth
rates almost always occur after declines in the death rate;
societies are much more amenable to death control than
birth control.
Why do crude birth rates fall and families get smaller
as societies become wealthier? The answer to this important question lies in the changing incentives that people
face as their worlds shift from primarily rural to primarily
urban, with a corresponding increase in the size and complexity of labor markets. For many people, the decision to
have, or not to have, children is the most important question they will ever face, with profound consequences not
only for their personal well-being but also for society at
large. Essentially, urbanization and industrialization lead to
smaller families because the benefit/cost ratio of children
changes over time. This assertion is not meant to reduce
children to simple economic commodities. However, in
societies in which a large number of women enter the paid
labor force—become commodified labor outside of the
home, rather than unpaid workers inside of it—the constraints to child rearing become formidable. For women,
who typically have primary responsibility for child care,
working outside of the home and taking care of young
children in urbanized societies pose extraordinarily difficult
obstacles. Many women understandably drop out of the
labor market, if only temporarily, to take care of their kids.
As a result, they do not earn an income while staying at
home, relying on their husband’s income for support.
Economically, this process generates an opportunity cost
to having children: The more children a couple has, or the
longer a mother refrains from working outside of
the home, the greater the opportunity cost she faces or
they face as a family (Figure 3.21). As women’s incomes
rise, either over time or comparatively within a society, the
opportunity cost of children rises accordingly, leading to
lower total fertility rates.
In distinct contrast to neo-Malthusian family planning,
which tends to ignore the social circumstances pertaining
to fertility, in this model there is a clear link between labor
markets and fertility behavior. Getting women to work
outside of the home in commodified labor markets is the
surest form of birth control. As total fertility rates decline,
so too does the natural growth rate. In short, relatively
prosperous societies tend to have smaller families, and
there is frequently a corresponding shift from extended to
nuclear families in the process.
76
The World Economy: Geography, Business, Development
Wage rate 2
Income
Forgone
Income 2
Wage rate 1
Forgone
Income 1
Time
FIGURE 3.21 The opportunity costs of having children rise with
income as mothers drop out of the paid labor force to take
care of young children. The amount a family gives up to raise a
young child for a given period of time is the wage rate multiplied
by the period of time the mother is absent from paid work.
(For example, a woman earning $20,000 per year who drops out
for 5 years to raise a child sacrifices $100,000 in forgone income.)
Among low-income families, including those in poor countries
or the economically disadvantaged in the First World, the
amount forgone is relatively low (hatched area) because incomes
are low. As societies develop and family incomes rise, however,
the amount forgone rises (shaded area). Thus, the economic
cost of raising a child rises with the level of economic development;
for this reason, poor families tend to be large families, both
among and within countries, and wealthier families tend to be
smaller ones.
Historically, fertility levels fell first in Western
Europe, followed quickly by North America, and more
recently by Japan, and then the remainder of Europe. In
all of those areas of the world, reproductive levels are
below the level of generational replacement; the United
States is the only major country still above that level, and
FIGURE 3.22 Deaths in economically advanced societies
such as the United States are less due to hunger and
infectious diseases and much more likely to result from
behavioral or lifestyle choices. The primary drivers of
death in the United States are smoking, which kills
roughly 435,000 Americans annually; poor diets coupled
with physical inactivity, which kill 400,000; and alcohol
abuse, which takes 85,000 lives each year. Illegal drugs, in
contrast, kill many fewer people (less than 30,000).
just barely. Elsewhere in the world, however, crude birth
rates remain at much higher levels, although in China
and Southeast Asia birth rates are dropping very quickly.
There has been a modest decline in South Asia, the
Middle East, much of Latin America, and parts of subSaharan Africa. Overall, then, almost all the world’s nations are experiencing more births than deaths each year,
with the biggest gap being found in the less developed
nations and the narrowest difference existing in the more
developed nations. In addition to these patterns of natural increase, many areas of the world are also impacted
by migration.
Increasing life expectancy in a region or country is an
important indicator of social progress. Between 1980 and
2010, the world’s average life expectancy at birth increased
from 61 to 68 years. In developed regions, average life
expectancy is 74 years for males and 81 years for females;
in developing regions, 65 years for males and 68 years for
females; in least developed countries, the values are 53
and 56, respectively.
Stage 4: Postindustrial Society
The fourth and final stage of the demographic transition,
postindustrial society, depicts wealthy, highly urbanized
worlds with their own configurations of birth, death, and
growth rates. In this context, indicative of Europe, Japan,
and North America today, death rates are very low and life
expectancies correspondingly high. Do death rates ever
reach zero? No, for that would mean life expectancies become infinite! Even the declines in the death rates will not
exhibit much improvement, and they face diminishing
marginal returns: The easy causes of death have been
largely eliminated, and overcoming the remaining ones
will be much harder.
As societies industrialize and become progressively
wealthier, the causes of death change from infectious
Smoking
435,000
Poor Diet/
Physical Inactivity
400,000
Alcohol Use
85,000
Microbial Agents
Toxic Agents
75,000
55,000
Motor Vehicle
Accidents
Suicide
32,000
Firearms
31,000
Illegal Drugs
30,000
Homicide
AIDS
45,000
18,000
12,000
Chapter 3 • Population
FIGURE 3.23 The drivers of death are manifested in
different biological outcomes. Heart disease, which is
closely related to smoking, alcohol abuse, and obesity,
is the largest single killer in the United States, responsible
for more than 28% of all deaths, followed by cancers
of all forms combined (22.7%). Cerebrovascular disease
(strokes) is third. In today's world, governments have
big underlying structural gaps in budgets and large
deficits that will not be easily filled by economic
recovery anytime soon. Rising health care costs,
especially in European welfare states, and also in the
United States, with new health care legislation, plus
the burden of pension and Medicare spending, will put
relentless pressure on government debt. Eventually, the
world's rich economies should return to full
employment, and when they do, public borrowing to
finance the health-conscious postindustrial society will
hurt growth and may lower standards of living.
United States
Diseases of
the Heart
(25.4)
Cancer
(23.2)
Cerebrovascular
Disease
(5.6)
Chronic Obstructive
Pulmonary Diseases
(5.3)
Accidents and
Adverse Effects
(5.1)
Alzheimer’s
Disease
(3.1)
Diabetes Melitus
(2.9)
Pneumonia and
Influenza
(2.2)
Nephritis
(1.9)
Septicima
(1.4)
Suicide
(1.4)
Chronic Liver
Disease
(1.2)
Arteriosclerosis
(1.0)
Parkinson’s Disease
(0.8)
Homicide
(0.8)
0
10
20
77
30
Percent
diseases, the bane of the preindustrial world, to lifestylerelated ones, particularly those associated with smoking and
obesity, as well as, to a lesser extent, car accidents, suicides,
and homicides (Figure 3.22). The leading causes of death in
the United States today, for example, are heart disease, cancers of all forms, and strokes (Figure 3.23).
Birth rates too, continue to fall in such contexts, as
families grow smaller and many couples elect to go childless or have only one. Around the world, national income
and population growth rates are inversely related (Figure
3.24). When crude birth rates drop to the level of crude
death rates, a society reaches zero population growth
(ZPG). When birth rates drop below death rates, as they
have in virtually all of Europe, the society experiences
negative population growth. Japan, the oldest major society in the world (older demographically than Florida),
will see its population decline by 30% or more in the next
50 years. Such situations are characterized by large numbers of the elderly, a high median age, and a relatively
small number of children, all of which have dramatic implications for public services. Often in such contexts,
governments take steps to increase the birth rate with
ample rewards for childbirth (e.g., subsidized child care
and long paid parental leaves) and publicity campaigns.
In societies with extremely low or negative population
growth, the major cause of demographic growth is often
net immigration.
Globally, uneven economic development—the legacy
of colonialism, different national policies, position in the
global system, and national cultural systems—generates
uneven patterns of natural population growth; the geography of natural growth rates is the difference between the
geographies of birth and death rates (Figure 3.25). The
most rapid rates of increase are found throughout
the poorer parts of the developing world (i.e., in Africa
and in the Arab and Muslim worlds). The economically
developed nations, including North America, Japan,
Europe, Australia, and New Zealand, in contrast, have low
rates of population growth, often hovering around zero or
even lower.
These patterns have significant implications for the nature and future of the world’s people. Although the world’s
average natural growth rate has been slowly declining, it
still adds roughly 100 million people per year (Figure 3.26),
roughly the population of Mexico. Projecting into the future,
declining fertility levels are believed to lead to slower rates
of demographic growth throughout the twenty-first century
(Figure 3.27). However, because there are so many people
of child-bearing age in the developing world, the total population of the planet is projected to rise to roughly 10 billion
The World Economy: Geography, Business, Development
35
World Avg. Population Growth 1.2%
Rate Per Year
Switzerland
30
25
Per Person Income (in thousands)
78
20
15
United Arab Emirates
10
5
World Avg. Per Person Income
Jordan
Hungary
0
0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
Annual Rate of Population Growth
FIGURE 3.24 The rate of population growth in different societies is closely associated with their average income.
Countries with high rates of demographic growth tend to have incomes below the world average; conversely, those with
high per capita incomes tend to have low rates of growth. This pattern reflects the dynamics of the demographic
transition discussed earlier.
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
20°
20°
160°
PACIFIC
10°
OCEAN
0°
Tropic of Cancer
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
Equator
50°
0°
60°
70°
80°
INDIAN
10°
20°
30°
10°
NATURAL INCREASE RATE
(ANNUAL PERCENTAGE)
3.0 and above
2.0–2.9
140°
90°
OCEAN
10°
120°
20°
20°
30°
30°
40°
40°
50°
50°
150°
20°
Tropic of Capricorn
30°
150°
160°
170°
CORAL SEA
20°
20°
30°
30°
1.0–1.9
40°
0.0–0.9
Below 0
50°
40°
40°
110° 120° 130° 140° 150° 160°
50°
0°
0°
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 3.25 Rates of natural population change (birth rates minus death rates). The fastest-growing areas of the world
include Africa, Central America, and Southwest Asia. Here growth rates exceed 2.5%, with a number of countries in Central
America and Africa actually exceeding 3% per year. Three percent growth per year does not seem like a high growth rate;
however, it indicates total population doubling time for a country of only 23 years. With a 2% growth rate, a country would
double in 35 years. For a 1% growth rate, a country may double in 70 years. Natural increase in Europe as a whole is only
0.2%, and several countries have negative rates of natural growth.
6
100
4
80
Annual increase (millions)
(left axis)
60
79
FIGURE 3.26 World population growth
rates have slowly declined as fertility levels
gradually dropped. Despite lower rates
of increase, the world still adds roughly
100 million people each year.
2
40
Natural increase rate (%)
(right axis)
20
1950
1960
1970
1980
1990
2
1
2010
2000
by the year 2100 (Figure 3.28). The vast bulk of these additions will be in the Third World. However, these projections
are based on different assumptions about the future of fertility (Figure 3.29). Should total fertility rates decline more rapidly than expected, the increase in the world’s people may
not be as dramatic as some believe.
However, the population explosion in the developing
world will have enormous impacts. Not all of the world’s
problems are reducible to population growth, but many
are not independent of it either. Rapid population growth
will accelerate, among other things, agricultural overcultivation and soil depletion, overfishing, poaching, deforestation, depletion of water resources, loss of biodiversity,
and rural-to-urban migration (Figure 3.30). Further, generating an infinite pool of poor people keeps wages low,
not only in the developing world but also in the developed, as globalization pits the labor forces of countries
against one another. Thus, it is important to keep the
dynamics of population growth in mind in relation to
environmental degradation, economic development, and
international issues.
NIR
(%)
Population (millions)
World population (billions)
Population
(billion)
Chapter 3 • Population
and the demographic transition are markedly different.
Whereas Malthusianism tends to take fertility for granted—arguing that people are prisoners of biological
imperatives to reproduce uncontrollably—the demographic transition reveals fertility is socially constructed
(i.e., families have children or don’t have them, as the
case may be, depending on the costs and benefits that
children offer). Moreover, whereas Malthusian scenarios
inevitably depict the population as growing uncontrollably, to the point of resource exhaustion, the demographic transition predicts steadily declining levels of world
population growth as crude birth rates converge upon
death rates. The evidence supports this view. After
accelerating for two centuries, the overall rate of world
population growth is slowing down. In the 1960s, it
reached a peak of 2.6%, declining to 1.7% a year in the
1990s, and dropping further to 1.2% in 2010. However,
the absolute size of population will continue to increase
because the size of the base population to which the
growth rate applies is so large.
Criticisms of Demographic Transition Theory
Contrasting the Demographic Transition
and Malthusianism
By now you may have realized that the assumptions,
analyses, and conclusions offered by Malthusian theory
Although the demographic transition has wide appeal because it links fertility and mortality to changing socioeconomic circumstances, it has also been criticized on several
grounds. Some critics point out that it is a model derived
2500
2170
2100
Population (in millions)
2000
1520
1500
1500
1000
600
500
600
360
100
0
1900–1925 1925–1950 1950–1975 1975–2000 2000–2025 2025–2050 2050–2075 2075–2100
FIGURE 3.27 Net additions
to the world’s population
between 1900 and 2100.
The world’s population
increased exponentially in
the twentieth century. The
period from 1975 to 2025
shows the largest halfcentury of increase, with
more than 4 billion people
being added to the world’s
population. From there, the
world’s population should
slow down in rate of
increase as fertility levels
decline everywhere.
The World Economy: Geography, Business, Development
80
Regional Trends in Population
2005 Population
2025 Projected Population
10
North
America
Latin
America &
Caribbean
Europe
807
Africa
915
331
369
554
709
718
8
Asia 3,668
5,000
4,960
3,000
1,000 0 1,000
3,000
5,000
(millions)
11
10
Total World Population
9
Population (billions)
8
World Population (in billions)
1,495
6
4
7
6
5
2
4
Underdeveloped
Regions
3
2
1
1800
1850
1900 1950
Year
2000
2050
1975
2000
2025
2050
1975
2000
2025
2050
2100
FIGURE 3.28 The vast bulk of additions to the world’s population
has occurred, and will continue to occur, in the world’s economically
underdeveloped regions. Natural growth rates in the First World
are low, often negative, whereas they tend to be relatively high in
poorer countries.
from the experience of the West and then applied to
many non-Western societies, as if they are bound to repeat the exact sequence of fertility and mortality stages
that occurred in Europe, Japan, and North America. There
is no inevitable logic that assures the developing world
must meekly follow in the footsteps of the West. Some
have pointed out that the developing world is in many
ways qualitatively different from the West, in no small part
because of the long history of colonialism. Further, demographic changes in the developing world have been much
more rapid than in the West. For example, whereas it took
decades, or even centuries, for mortality rates in Europe
to decline to their modern levels, in some developing
countries the mortality rate has plunged in only one or
two generations. Because mortality rates do not vary
geographically as much as fertility rates, most of the spatial differences in natural growth around the world are
due to differences in fertility. These caveats are useful in
cautioning us to examine the historical context in which
all theories and explanations emerge and to be wary of
blindly importing models developed in one social and
historical context into radically different ones for which
they were not originally intended.
Babies Born per Woman
1750
0
1955
Developed Regions
4
3
2
1
0
1955
FIGURE 3.29 The future of the world’s population size depends on
how fertility levels change. If current fertility levels are maintained,
the number of people in the world could exceed 10 billion by 2050.
However, if fertility levels drop, as they have been doing, the rate
of increase will slow down; at a minimum, the world can expect to
hold more than 7.5 billion people in 50 years.
POPULATION STRUCTURE
Except for total size, the most important demographic feature of a population is its age-sex structure. The age-sex
structure affects the needs of a population as well as the
supply of labor; therefore, it has significant policy implications. A rapidly growing population implies a high proportion of young people under the working age. A youthful
population also puts a burden on the education system.
Chapter 3 • Population
Consequences of population explosion in developing nations
Overcultivation
Soil erosion
Depletion of
fertility
Overfishing
Depletion of
marine stocks
Poaching of
wildlife
Drugs
Corruption
Other illegal
activities
Move to cities
Squalor
Disease
Antibiotic
resistant
strains of
tuberculosis,
malaria,
pneumonia,
STDs
Siltation of rivers
Loss of fisheries
Flooding
81
FIGURE 3.30 The population boom in developing
countries will have numerous repercussions. Not
all of the world’s problems can be blamed on
population growth, but rapid rates of increase are
likely to exacerbate environmental degradation,
such as soil erosion and wildlife loss, and generate
large numbers of people seeking better
opportunities in cities and in the economically
developed world.
POPULATION EXPLOSION
Farms subdivided into small
plots no longer able to
support families
Bring new land into
cultivation
Deforestation
Drain wetlands
Irrigation
Depletion of
water resources
Loss of fisheries
Migration
Environmental refugees
Immigration pressures
on First World
Wildlife extinction
Loss of biodiversity
Global climate change
Consequences for the First World
When this cohort enters the working ages, a rapid increase
in jobs is needed to accommodate it. By contrast, countries
with a large proportion of older people must develop
retirement systems and medical facilities to serve them.
Therefore, as a population ages, its needs change from
schools to jobs to medical care.
The age-sex structure of a country is typically summarized or described through the use of population
pyramids. They are divided into 5-year age groups, the
base representing the youngest group, the apex the
oldest. Population pyramids show the distribution of
males and females of different age groups as percentages
of the total population. The shape of a pyramid reflects
long-term trends in fertility and mortality and short-term
effects of baby booms, migrations, wars, and epidemics.
It also reflects the potential for future population growth
or decline.
Two basic, representative types of pyramid may be
distinguished (Figure 3.31). One is the squat, triangular
profile. It has a broad base, concave sides, and a narrow
tip. It is characteristic of developing countries having high
crude birth rates, with a young average age, and relatively
few elderly. Natural growth rates in such societies tend to
be high.
In contrast, the pyramid for economically developed
countries, including the United States, describes a slowly
growing population. Its shape is the result of a history of
declining fertility and mortality rates, augmented by substantial immigration. With lower fertility, fewer people
have entered the base of the pyramid; with lower mortality, a greater percentage of the births have survived until
old age. In short, the structure of the population pyramid
closely reflects the stage of the demographic transition in
which a country is positioned. Like all developed countries, the U.S. population has been aging, meaning that
the proportion of older persons has been growing. The
pyramid’s flattened chest reflects the baby dearth of the
Great Depression in the 1930s, when total births dropped
from 3 million to 2.5 million annually. The bulge at the
waist of the pyramid is a consequence of the baby boom
that followed World War II. By 1976, the total fertility rate
had fallen to 1.7, a level below replacement. Members of the
82
The World Economy: Geography, Business, Development
FIGURE 3.31 Population pyramids reflect the
age and sex structure of a society. Poor
countries, with high birth rates and a large
share of the population at early ages, have
pyramids with a broad base and narrow top.
Economically wealthier societies, with low rates
of natural growth, have older populations; their
pyramids have proportionately smaller bases
and a larger share of people in the middle aged
and elderly groups.
Population age pyramids
Developing
countries
Male
300
200
baby-boom generation, however, were having children in
the 1980s and 1990s, driving the total fertility rate up to
2.0, almost at replacement level and the highest in the developed world. Thus, the U.S. population continues to
grow from natural increase as well as from immigration.
Because different parts of the United States have very different socioeconomic conditions, cultures, and migration
patterns, various places in the country have very different
population pyramids (Figure 3.32).
A few developed countries have very low rates of
population growth—in some cases zero population
growth (ZPG) or negative population growth. They
have low crude birth rates, low death rates, and, in some
cases, net out-migration. France is an example. Because
of very low fertility, the country is experiencing negative
population growth, and although there is a steady stream
of foreigners (especially Arabs and Africans) into the
country, France tries to limit immigration. Population decline is an economic concern to many European countries, as well as Japan, the world’s oldest nation demographically. Who will fill the future labor force? Is the
solution the immigration of guest workers from developing countries? In these respects, demographic changes
have profound influence on immigration policies and the
size and nature of the labor force.
THE BABY BOOM, AN AGING POPULATION,
AND ITS IMPACTS
The so-called baby boom—everyone born between 1946
and 1964—is the largest generation in world history,
90 million strong, and comprises roughly 40% of
Americans today. Baby boomers are the children of the
“greatest generation,” those who lived through the Great
Depression and fought World War II. After the war, with
the American economy booming and standards of living
100
Developed
countries
Female
0
Millions
100
Age groups 80-84
75-79
70-74
65-69
60-64
55-59
50-54
45-49
40-44
35-39
30-34
25-29
20-24
15-19
10-14
5-9
0-4
200
300
50
0 50
Millions
rising rapidly, birth rates increased dramatically, giving rise
to a flood of children in the schools.
The movement of this generation through its life cycle
has been likened to that of a python swallowing a large
animal, creating a bulge that slowly tapers off over time. In
the 1960s, the baby boomers entered college, contributing
to the rapid social changes of that decade. In the 1970s,
they entered the workforce, including more working
women than ever before, which increased the supply of
labor and helped to drive up unemployment rates for a
while. This large swell entering the workforce required a
huge investment in capital stock and infrastructure—office
space, desks, training programs, computer terminals, parking garages, not to mention cafeterias and clothing stores.
However, because they swelled the labor supply, income
growth for boomers was relatively low, and the number of
children they had per family was also much smaller than
that of their parents, although the large size of this generation meant that the absolute number of children they
produced (Generation X) was considerable. Economic
opportunities for boomers varied considerably in terms of
their birth year: Those born in the early years of the boom
encountered labor shortages and high wages, while those
born after the boomer peak year in 1957 faced markedly
less positive circumstances.
Expenditures by baby boomers in the midst of their
prime earning years helped to fuel the consumer and housing booms of the 1990s and 2000s. The result of the influx of
baby boomers was new products, new services, and new
technologies in niche markets, improving service and
reducing service delivery times. Now that the baby boom
is preparing to retire, labor force growth is low. As they
leave the workforce, the numbers of retirees will
rise dramatically, and demands on Social Security and
Medicaid will grow exponentially, with serious challenges
for public financing. Indeed, as seen in Chapter 8, an aging
Chapter 3 • Population
90
90
90
80
80
80
70
70
70
60
60
60
50
50
50
40
40
40
30
30
30
20
20
20
10
10
10
0
0
7
6
5
4 3 2
Male
1
(a)
0 1
%
2
3 4 5
Female
6
7
7
6
5
4 3 2
Male
(b)
USA
1
0 1
%
2
3 4 5
Female
6
0
7
7
6
90
80
70
70
60
60
50
50
40
40
30
30
20
20
10
10
(d)
0
6
5
4 3 2
Male
1
0 1
%
2
3 4 5
Female
6
7
90
90
80
80
80
70
70
70
60
60
60
50
50
50
40
40
30
30
30
20
20
20
10
10
10
0
0
40
(g)
6
5
4 3 2
Male
1
0 1
%
6
5
2
Unalaska, AK
(71% Male)
3 4 5
Female
6
7
7
6
5
4 3 2
Male
(h)
1
0 1
%
2
Lawrence, KS
(College town)
3 4 5
Female
6
7
0 1
%
2
3 4 5
Female
6
7
0
(i)
4 3 2
Male
1
0 1
%
2
3 4 5
Female
6
7
6
7
Laredo, TX
(94% Hispanic)
(e)
90
7
7
(f)
Honolulu, HI
(66% Asian-American and/or
Native Hawaiian)
1
Detroit, MI
(82% African-American)
80
7
4 3 2
Male
(c)
Cedar Rapids, IA
(92% White)
90
0
5
83
7
6
5
4 3 2
Male
1
0 1
%
2
3 4 5
Female
Naples, FL
(42% over age 65)
FIGURE 3.32 Population pyramids for selected communities in the United States reflect a diverse suite of demographic conditions.
In college towns, a disproportionately large number of young adults is evident. In retirement communities, such as Naples, Florida,
there are far more elderly than young people. Note the imbalance between males and females in Unalaska, a reflection of the labor
market there.
population is one of the major driving forces behind the
growth of health-related services, which have grown steadily
and in tandem with the rising numbers of the elderly. As the
baby boom retires—a process already underway—expenditures for pensions and Social Security will also rise rapidly,
setting the stage for intergenerational conflicts over the allocation of resources. When the boomers begin to die en
masse, starting around the year 2020, death-related industries
(e.g., funeral homes) will experience a surge in demand.
The aging of the baby boom is symptomatic of the demographics in most economically developed countries, all
of which tend to have low birth rates and high average life
expectancy. In Europe, Russia, Japan, the United States,
Canada, Australia, and New Zealand, the most rapidly
growing age groups are the middle-aged and the elderly.
As these societies age, the ratio of nonworking to working
people, the so-called dependency ratio, increases steadily,
meaning there is a declining ratio of working adults to
nonworking people, with associated problems concerning
who will pay for the services required by children and the
elderly. Aging societies change in many other ways as
well: The elderly tend to move more slowly and require
more assistance. These observations reflect how economic
and demographic changes are closely intertwined.
84
The World Economy: Geography, Business, Development
pioneer farmers in the United States and Canada.
Involuntary movements may be forced or impelled. In
forced migration, people have no choice; their transfer is
compulsory. Examples include the African slave trade, in
which 20 million people were stolen from their homelands
and shipped to the New World, and the deportation of
British convicts to the United States in the eighteenth
century and to Australia in the nineteenth. In impelled
migration, people choose to move under duress. In the
nineteenth century, many Jewish victims of the Russian
pogroms elected to move to the United States and
the United Kingdom. Civil wars in Central America in the
1980s led hundreds of thousands of Salvadorans and
Nicaraguans to emigrate to the United States. In Africa,
multiple civil wars have displaced millions of refugees into
neighboring nations.
MIGRATION
Migration is a movement involving a change of permanent residence. It is a complex phenomenon that raises a
lot of questions. Why do people move? What factors influence the intensity of a migratory flow? What are the effects
of migration? What are the main patterns of migration?
Causes of Migration
Most people move for economic reasons. They relocate to
take better-paying jobs or to search for jobs in new areas.
They also move to escape poverty or low living standards,
to find a better life for their children, to escape adverse
political conditions, or to fulfill personal dreams.
The causes of migration can be divided into pushand-pull factors. Push factors include high unemployment rates, low wages, poverty, shortages of land, famine,
or war. In the late 1970s and early 1980s, various communist purges in Vietnam, Cambodia/Kampuchea, and Laos
pushed approximately 1 million refugees, who resettled in
the United States, Canada, Australia, China, Hong Kong,
and elsewhere. Pull factors include job and educational
opportunities, relatively high wages, the hope for agricultural land, or the “bright lights” of a large city. The rich
oil-exporting countries in the Middle East act as a pull
factor for millions of immigrants seeking employment. In
Kuwait and the United Arab Emirates, nearly 80% of the
workforce is composed of foreigners, mostly drawn from
South Asia and the Philippines. Spatial differences in economic opportunities, therefore, go far toward explaining
why young people often leave rural areas, the influx of
Mexicans into the southwestern United States, or the immigration of non-Westerners into Europe, including Indians
and Bangladeshis into Britain, Turks into Germany, and
Arabs into France.
Migrations can be voluntary or involuntary and reflect
the historically specific matrix of cultural, economic, and
political circumstances in which migrants live. Most movements are voluntary, such as the westward migration of
FIGURE 3.33 Migration and wage differentials.
The quantity of labor is measured on the
horizontal axis, and the price of labor is measured
on the vertical axis. As the price increases on the
vertical axis, the demand for labor decreases in
both the developed country and the less developed
country. The supply curves of both developed and
undeveloped countries slope upward, suggesting
that a greater supply of labor is available at higher
prices. Because the equilibrium price of labor is
higher in the developed country than in the
undeveloped country, labor migrations occur from
less developed to developed, or from B to A, to
take advantage of higher wages. The greater the
wage differential, both the greater the flow and
the longer the distance of flow. The wage rate
differential between San Diego and Tijuana, for
example, is 8 to 1 for comparable occupations.
The Economics of Migration
This subsection examines migration of a voluntary nature
due to economic incentives, which comprises the largest
single category of human migrations throughout history.
Unfettered migration is an expression of a free market for
labor, although markets are never as free for labor as they
are for capital. Unrestricted migration is generally only
feasible within the borders of the same nation-state.
Among states, restricting the flow of immigrants is one of
many ways states as well as markets shape economic
landscapes.
Consider two regions as shown in Figure 3.33. Region
A on the right, is a highly industrialized country (e.g., the
United States or Germany). Region B is a less developed
country. A labor market exists within each nation. The
quantity of labor supplied and demand is measured on the
horizontal axis and the price of labor (wages) is measured
on the vertical axis. As the price of labor increases, the demand decreases (i.e., employers face a demand curve),
and as the price decreases, the demand increases. The
supply curve S1 increases upward to the right, suggesting
Price of
Labor
S1
S2
D1
After
Migration D1
Before
Migration
R
PSD2
PM2
L
PM1
D2
S1
S2
K
PSD1
Q
Before
Migration
from Mexico
After
Migration
from
Mexico
D2
S2
S1
Increasing
Q1 Q2
Increasing
0
Mexico
B
Q1 Q2
United States
A
Labor Flow
Quantity of Labor
Chapter 3 • Population
that a greater supply of labor is available at higher prices.
As the price for labor increases, individuals who would
not care to work at lower wages now come into the market. They substitute work at higher prices for staying home
and taking care of children, going to school, or being in
retirement.
In order to facilitate the analysis for the less developed
country, such information is shown on the left side of
Figure 3.33. Instead of measuring the quantity of labor
from zero to the right for the less developed country, we
now measure it from zero to the left. Price remains on the
vertical axis. The supply curve in the less developed country slopes upward to the left and the demand curve slopes
downward to the left. In this manner, we get a backto-back set of supply and demand curves for a less developed country and a developed country.
Observe the equilibrium position of the supply and
demand for labor in the developed country before migration occurs, which occurs at point K. Also note the equilibrium position for the supply and demand of labor in the
less developed country. This equilibrium position occurs
at L. In classical labor migration theory, there is an assumption that information about job availability and wage
differentials is widely available and held by workers (i.e.,
there is little uncertainty). Labor in the less developed
country finds out about jobs available in the developed
country at higher wage rates. Because the equilibrium
price in Region A is higher than that in Region B, labor migrates from Region B to Region A to take advantage of
higher wages (assuming there are no barriers to migration). The greater the differential in wages, the greater the
flow of labor will be. In Region A, extra labor is now coming into the region, which is used to working for lower
wages. Because the extra labor is supplied over and above
the indigenous supply and the labor is used to working at
lower wages, the supply curve moves downward toward
the right to the new equilibrium R. In addition, because
the labor pool has left Region B, the supply of labor is reduced. The supply curve moves upward and to the right in
Region B, thus raising the equilibrium price to Q. The new
equilibrium price in Region A, at R, is at a lower level than
it was prior to labor migration. Thus, migration will continue as long as there is a difference between the wages of
Region A and Region B, which exceed a cost associated
with migration. In the case of flows from Mexico to the
United States, most categories of employment are paid two
to five times the rate in Mexico. Consequently, the flows
both on a daily basis and on a longer-term basis continue
to occur at high levels, including many illegal or undocumented workers (see Figures 3.32 and 3.33).
In classical migration theory, transportation costs and
other costs associated with moving an individual or family
are included, such as selling a property and purchasing
one in the new region. The costs of labor in the different
regions will not be exactly equalized. But classical trade
and migration theory tell us that the long-run price of
labor in the two regions should come into close harmony
with one another. Relocation and similar migration costs
85
should be split up over the period of work remaining in
the life of the mover.
However, when we observe real-world labor movements and price differentials, we find that wage rates do
not seem to be converging among regions. Major discrepancies occur in the wages paid in and among various
regions of the United States and countries of Europe, as
well as in South America and India. If neoclassical theory
held, there would be less difference in national averages
of per capita incomes. One reason that labor differential
rates exist is because of the imperfections in the availability of knowledge about opportunities. Many workers in the
less developed countries do not know that jobs they may
be qualified for in more highly developed countries even
exist. As an individual contemplates changing locations
and even countries, he or she is beset by a series of social
factors, including lack of friends and knowledge and the
feeling of uneasiness in the new setting. Consequently,
the largest numbers of international labor migrants are
young males who do not have families to relocate.
Cultural differences are also important to understanding migration. The cultural shock of living in a new
environment, especially when one does not have the resources to live adequately or does not speak the native
language, presents social problems. Institutional barriers
also exist, such as the status of immigration or the length
of time allowed in the host country. African Americans,
Puerto Ricans, Chinese immigrants, Mexican Americans,
and women have encountered such resistance in the past
in the United States in their search for improved working
conditions and wages, often in the face of xenophobic
racism and ostracism.
Consequently, we cannot expect that economic forces
alone will lead to a total eradication of wage inequities
throughout a country or throughout the world. Barriers to
migration, including legal obstacles and immigration restrictions, imperfect information, lack of skills, inability to
afford transportation, and the powerful bonds that hold
people in place work to prevent a free flow of labor
among and often within countries. At best, only a small
portion of the population in a low-wage region has the
ability to gain access to higher pay in developed nations.
Therefore, there will continue to be a discrepancy in per
capita earnings between less developed countries and
developed countries and between depressed regions and
economically healthy regions within countries. The
demand curves for labor also shift down and to the right
as the more highly qualified, productive labor leaves, and
up and to the right as new workers arrive. Migration is
thus intertwined with local and national labor markets in
complex ways that shape average incomes and unemployment rates.
The availability of work and wage rates account for
major labor flows throughout the world, from countries
lacking in jobs and with low wages to countries with jobs
available at relatively higher wage rates. Major labor flows
occur (1) from Mexico and the Caribbean to the United
States and Canada; (2) from South American countries to
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The World Economy: Geography, Business, Development
Argentina, Venezuela, and Peru; (3) from North Africa
and southern European nations to northwestern Europe;
(4) from Africa and Asia to Saudi Arabia; and (5) from
Indonesia to Malaysia, Singapore, and Australia. Migrants
vary by age. Young adults are most likely to be migrants
because of their desire for an improved life and greater
ability to travel and overcome hardships.
Barriers to Migration
All countries regulate the flow of immigration. The United
States limits legal immigration to approximately 600,000
people annually, although a total of roughly 1.1 million
enter the United States legally or illegally every year.
Altogether, about 33.1 million immigrants live in the
United States, comprising 11% of the population. Of this
group, an estimated total of 5 million people live in the
country illegally, often under constant threat of being
caught and deported. Billions of dollars are spent annually
to police the U.S. borders, much of which is used to try to
keep Mexicans and other Latin Americans out. The status
of illegal immigrants is a significant political issue often
arousing passionate feelings: Some argue that by paying
income and sales taxes, immigrants generate more wealth
than they consume, while others argue that they compete
with unskilled American residents, many of whom are ethnic minorities, and drive down wages in the bottom rungs
of the labor market.
Characteristics of Migrants
Some countries have higher rates of migration than do
others—both into and within the country. In general, the
countries that have long histories of migration, such as
the United States, Canada, and Australia, have higher
migration rates in the modern world than do other countries, such as China, where migration is far less common.
Recently, China has witnessed an enormous surge of people leaving rural areas for the more prosperous coastal
cities; with more than 100 million such migrants, this
stream is one of the largest migrations in history.
When people do move, they are far more likely to be
young adults than any other group. Young adults have the
longest working life ahead of them and thus stand to gain
more than the elderly from the accumulated benefits of
moving to a relatively higher-wage region. Many migrants
send part of their wages to their home country or village.
These remittances often form an important source of income for the recipients back home. In the developed
world, migration rates tend to drop significantly by the
time people have established families and purchased
homes, typically in their thirties.
Consequences of Migration
Migration has demographic, social, and economic effects,
especially due to the fact that migrants tend to be young
adults and are often the more ambitious and well-educated
members of a society. Obviously, the movement of people
from one region to another causes the population of the
country of origin to decrease and of the destination country to increase. Because of migratory selection, the effects
are more complicated. If the migrants are young adults,
their departure increases the average age, raises the death
rate, and lowers the birth rate in the country of origin. For
the destination region, the opposite is true (i.e., their arrival tends to lower the average age and the death rate but
increase the fertility rate). If migrants are retirees, their
effect is to increase the average age, raise the death rate,
and lower the birth rate. Arizona and Florida, for example,
have attracted a large number of retirees, resulting in higherthan-average death rates.
Social conflict is a fairly frequent social consequence
of migration. It often follows the mass movement of
people from poor countries to rich. There were tensions in
Boston and New York after the Irish arrived in the 1840s;
fleeing the potato famine, they were the first Catholics to
arrive in the United States in large numbers. Similar
tensions have come with recent migrants, such as Cubans
settling in Miami. Social unrest and instability also follow
the movement of refugees from poor countries to other
poor countries. Many immigrants are subject to racist
xenophobia and become scapegoats for all the problems
in their new country, especially during economic downturns. In much of Europe, for example, nationalists blame
Turks, Arabs, Pakistanis, and other immigrants for unemployment. Generally, poor migrants have more difficulty
adjusting to a new environment than the relatively well
educated and socially aware.
The economic effects of migration are varied. With
few exceptions, migrants contribute enormously to the
economic well-being of places to which they come. For
example, guest workers from Turkey and Yugoslavia were
indispensable to the economy of Germany in the 1960s
and 1970s. Without them, assembly lines would have
closed down, and patients in hospitals and nursing homes
would have been unwashed and unfed. Without Mexican
migrants, fruits and vegetables in Texas and California
would go unharvested and service in restaurants and hotels would be much more expensive. Migrants to the
United States also pay income and sales taxes, but illegal
ones do not reap the benefits of programs such as Social
Security.
In the short run, the massive influx of people to a
region can cause problems. The U.S. Sunbelt states have
benefited from new business and industry but are hard
pressed to provide the physical infrastructure and services
required by economic growth. In Mexico, migrants to
Mexico City accelerate the competition for scarce food,
clothing, and shelter. Despite massive relief aid, growing
numbers of refugees in the developing world impoverish
the economies of host countries.
Emigration can relieve problems of poverty by reducing the supply of labor. External migration reduced poverty
somewhat in Jamaica and Puerto Rico in the 1950s and
1960s. However, emigration can also be costly. Some of
Chapter 3 • Population
the most skilled and educated members of the population
of Third World countries migrate to developed countries.
Each year, the income transferred through the “brain
drain” to the United States amounts to significant sums,
although billions of dollars are also sent back home in the
form of remittances to family members who stayed
behind. Indeed, remittances are often a major source of income for impoverished villages in the developing world.
Patterns of Migration
In examining patterns of migration, it is helpful to consider
migration internationally or within a country separately. It
is also convenient to subdivide external migration into intercontinental and intracontinental, and internal migration
into interregional, rural-urban, and intrametropolitan.
International migrations are greatly exceeded by internal
population movements, especially to and from cities.
The great transoceanic exodus of Europeans and the
Atlantic slave trade to the New World are spectacular examples of intercontinental migration. In the five centuries
87
before the economic depression of the 1930s, these population movements contributed greatly to a redistribution of
the world’s population. One estimate is that between
9 and 10 million slaves, mostly from Africa, were transported by Europeans into the sparsely inhabited Americas. The
importance of the “triangular trade” among Europe, Africa,
and the Americas can hardly be exaggerated, especially for
British economic development. Africans were purchased
with British manufactured goods. They were sent to work
on plantations where they undertook the production of
sugar, cotton, indigo, molasses, and other tropical products. These commodities were then sent to Britain for processing, which created new British industries. Plantation
owners and slaves became a new market for British manufacturers whose profits helped finance Britain’s Industrial
Revolution.
The Atlantic slave trade, however, was dwarfed by the
voluntary intercontinental migration of Europeans. Mass
emigration began slowly in the 1820s and peaked on the
eve of World War I, when the annual flow reached about
900,000 (Figure 3.34). At first, migrants came from densely
TOTAL IMMIGRATION
1,000,000
Annual immigration into the United States
900,000
800,000
Southern and
Eastern Europe
Africa
700,000
600,000
Canada
500,000
400,000
Asia
300,000
Latin
America
200,000
100,000
Northern and
Western Europe
0
1830 1840 1850 1860 1870 1880 1890 1900 1910 1920 1930 1940 1950 1960 1970 1980 1990 2000 2010
Year
FIGURE 3.34 Immigration to the United States by region of the world. European countries provided more than 90% of all
immigrants to the United States during the 1800s, and up until 1960, Europeans continued to provide more than 80% of the total
migration. But since the 1960s, Latin America and Asia have supplanted Europe as the most important source of immigrants to the
United States. During the Great Depression and World War II years, immigration was at an all-time low. Add the taxes that an
immigrant and his or her descendants are likely to generate over their lifetimes; then subtract the cost of the government services
they are likely to consume. The result is that each new immigrant yields a net gain to the government of $80,000. States and cities
lose $25,000, while the impact on the federal treasury is $105,000.
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The World Economy: Geography, Business, Development
FIGURE 3.35 Intercontinental migration flows are
dominated by people leaving the developing world in
search of opportunities in the developed world, including
immigrants from Asia and Latin America to the United
States and Canada and Africans and Asians to Europe. In
the long run, there is a drawback to the rich country low
fertility rates: an impending slowdown in the labor
supply, which will threaten productivity and economic
growth. With millions of workers unemployed in the rich
countries, an impending labor shortage might not seem
much of a problem. But these demographic shifts set the
boundaries for a country’s future, including their ability
to maintain their standard of living and their ability to
service their public debt. Unless more immigrants are
allowed in, or a larger proportion of the working-age
population joins the labor force, or people retire later, or
their productivity rapidly accelerates (all of which are
unlikely events), the aging population will translate into
permanent slower potential growth. America is debating
this thorny issue now.
populated northwestern Europe. Later, they came from
poor and oppressed parts of southern and eastern
Europe. Between 1840 and 1930, at least 50 million
Europeans emigrated. Their main destination was North
America, but the wave of migration spilled over into
Australia and New Zealand, Latin America (especially
Argentina), and southern Africa. These new lands were
important for Europe’s economic development. They relieved population pressure and provided new sources of
foodstuffs and raw materials, markets for manufactured
goods, and openings for capital investment. Another
large-scale intercontinental migration was the Chinese
diaspora of the nineteenth and early twentieth centuries,
especially into Southeast Asia.
Since World War II, the pattern of intercontinental
migration has changed. Instead of heavy migratory flows
from Europe to the New World, the tide of migrants is
overwhelmingly from developing to developed countries
(Figure 3.35). Migration into industrial Europe and to
North America has been spurred partly by widening economic inequality and by rapid rates of population increase in the developing world. In the United States, for
example, roughly 5 million Mexican immigrants live in the
southwestern states (Figures 3.36 and 3.37), where they
form the bulk of the labor force in agricultural labor,
sweatshops, and low end service occupations (e.g., in
restaurants and as gardeners). Immigrants thus form significant populations in many countries around the world
(Figure 3.38), particularly in the United States, Western
Europe, Australia, and South Asia. Some of them are
refugees, while others are unskilled workers seeking jobs
outside of their native lands.
The era of heavy intercontinental migration is over.
Mass external migrations still occur, but at the intracontinental scale. In Europe, forced and impelled movements
of people in the aftermath of World War II have been succeeded by a system of migrant labor. In the United States,
ANNUAL NET MIGRATION
100,000
500,000
10,000
thousands of people from Latin America, particularly
Mexicans, many of whom are illegal aliens, arrive each
year to find work (Figure 3.39). Similarly, the most prosperous industrial countries of Europe attract workers from
the agrarian periphery (Figure 3.40). France and Germany
are the main receiving countries of labor migrants to
Europe. France attracts workers from North Africa. During
the post-WWII boom years (1945–1975), West Germany
drew many “guest workers” from Italy, Yugoslavia,
Greece, and Turkey. Migrant workers from southern
Europe usually have low skills and perform jobs unacceptable to indigenous workers.
The system of extraterritorial migrant labor also exists in the developing world. In Africa, laborers move
great distances to work in mines and on plantations. In
West Africa, the direction of labor migration is from the
interior to coastal cities and agricultural export areas. In
0
0
150
300 MILES
150 300 KILOMETERS
California
Los
Angeles
Arizona
New
Mexico
Yuma
Lukeville
San
Diego
Nogales
30°
El Paso
Texas
San
Antonio
PACIFIC
OCEAN
Laredo
115°
MEXICO
Houston
Gulf of
Mexico
Brownsville
Illegal alien flow
25°
95°
FIGURE 3.36 Illegal or undocumented migration flows from
Mexico to the United States.
Chapter 3 • Population
89
FIGURE 3.37 Flows of millions of illegal immigrants from Mexico to the United States take
place at a variety of locations along the border. Often migrants undertaking such journeys are
exposed to very dangerous conditions, and many die in transit. Such desperation is driven by
the enormous differences in standards of living and opportunities on either side of the border,
that is, uneven spatial development.
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
20°
20°
160°
Tropic of Cancer
20°
ARABIAN
SEA
PACIFIC
BAY OF
BENGAL
10°
10°
10°
OCEAN
0°
Equator
50°
0°
60°
70°
80°
INDIAN
10°
10°
140°
90°
OCEAN
10°
120°
20°
30°
NET INTERNATIONAL MIGRATION
(PER 1,000 POPULATION)
Net inmigration 3.0 and above
20°
20°
30°
30°
40°
40°
50°
50°
150°
20°
Tropic of Capricorn
30°
150°
160°
170°
CORAL SEA
20°
20°
30°
30°
Net inmigration below 3.0
40°
50°
Net migration = 0
Net outmigration
No data
40°
40°
110° 120° 130° 140° 150° 160°
50°
0°
0°
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 3.38 Net international migration rates around the world. The United States has the largest group of immigrants, although
other populations are found in France, Britain, Germany, and Australia, as well as in India, Pakistan, Iran, and Saudi Arabia. In the
latter group of countries, immigrants include many unskilled workers from Asia.
The World Economy: Geography, Business, Development
90
205
MEXICO
20°
Today, refugee-generating and receiving countries are
concentrated in Africa (6 million people), Southeast Asia
(4 million), and Latin America (2 million). The causes of
refugee movement typically include wars (e.g., Vietnam,
World War II, Afghanistan), racial and ethnic persecution
(e.g., South Africa, Bosnia-Herzogovina), economic insufficiency increased by political turmoil (e.g., Sudan), and
natural and human-caused disasters (e.g., Central
American hurricanes).
Colonizing migration and population drift are two
types of interregional migration. Examples of colonizing
migration include the nineteenth-century spontaneous trek
westward in the United States and the planned eastward
movement in Russia beginning in 1925. General drifts of
population occur in almost every country, and they accentuate the unevenness of population distribution. Between
the two World Wars, there was a drift of African Americans
from the rural South to the cities of the nation’s industrial
heartland in the Northeast and Midwest. Since the 1950s,
there has been net out-migration from the center of the
United States to both coasts and a shift of population from
the Rustbelt states to the Sunbelt (Figure 3.42). Today, the
majority of Americans live in the South and West, as opposed to the North and Midwest, although the vast
expanses of land in the Sunbelt states generate lower population densities than in the Northeast.
The most important type of internal migration is ruralurban migration, which is usually for economic motives.
60°
UNITED STATES
28
CUBA
27
20°
21
DOM.
HAITI REP.
JAMAICA
14
15
GUATEMALA
11
31
Other 12
Caribbean
Other
EL SALVADOR
20 Central
NICARAGUA American
Other
South
American 21
COLOMBIA
MIGRATION
TO U.S.
(IN THOUSANDS)
17
ECUADOR
10
10
11
BRAZIL
PERU
11
FIGURE 3.39 Migration flows to the United States from Latin
America. The largest source of emigrants is Mexico, with smaller
streams from various parts of the Caribbean, Central America, and
northern South America.
East Africa, agricultural estates attract extraterritorial
labor, typically refugees (Figure 3.41). In southern
Africa, migrants focus on the mining-urban-industrial
zone that extends from southern Zaire in the north,
through Zambia’s Copper Belt and Zimbabwe’s Great
Dyke, to South Africa’s Witwatersrand in the south.
20°
ANNUAL GDP
PER CAPITA
50
°
0°
10°
20°
FINLAND
NORWAY
SWEDEN
Above $20,000
ESTONIA
Below $20,000
MOVEMENT
OF WORKERS
North
IRELAND
Above 100,000
RUSSIA
LATVIA
DENMARK
Sea
UNITED
KINGDOM
LITHUANIA
NETH.
BELARUS
POLAND
BELG.
50,000–99,999
GERMANY
LUX.
A T L A NT I C
CZECH.
REP.
O CE A N
40
U
°
ED
NIT
A
ST
UKRAINE
SLOVAKIA
S
TE
FRANCE
AUST.
SWITZ.
MOLDOVA
HUNGARY
SLOVENIA
CROATIA
PORTUGAL
SPAIN
ITALY
ROMANIA
BOSNIA
SERBIA
AND
HERZEGOVINA
MONT.
IN
D
Black
BULGARIA
Sea
KOS.
MACEDONIA
MOROCCO
0
0
250
250
500 MILES
500 KILOMETERS
ALGERIA
AFRIC
A
ALBANIA
Me
dit
TUNISIA
GREECE
er
ra
ne
TURKEY
an
Sea
20°
30°
FIGURE 3.40 Migrant flows to and within Europe are generally from poorer countries with a
labor surplus to wealthier ones with better employment opportunities. For example, Turks have
long served as “guest workers” in Germany, and France hosts a growing population of Arabs
from Algeria and Morocco. There are also net migration streams out of Spain, Portugal, Greece,
and Italy to France, Switzerland, Germany, and other states.
IA
Chapter 3 • Population
91
100
SAUDI
ARABIA
Northeast
100
150
ERIT
RE
A
SUDAN
N
ME
200
YE
50
Midwest
West
250
10°
300
50
250
200
250
ETHIOPIA
SO
M
AL
IA
250
UGANDA
DEM. REP.
South
2000
KENYA
0°
CONGO
FIGURE 3.42 Migration flows among the four major census
regions of the United States. While all regions exchange people
with each other, the largest flows are to and from the South. These
flows are one factor in the growth of the Sunbelt (South and
West), which is now more populous than the Snowbelt or Rustbelt
(Northeast and Midwest).
RWANDA
INDIAN
BURUNDI
OCEAN
TANZANIA
10°
MALAWI
AGA
BIQUE
BOTSWANA
20°
MAD
MOZAM
ZIMBABWE
SCA
R
ZAMBIA
SWAZILAND
SOUTH
AFRICA
LESOTHO
NUMBER OF REFUGEES
IN EAST AFRICA
30°
1 million
Internally Displaced Persons (IDPs)
500,000
100,000
30°
In highly urbanized countries, intermetropolitan migration is increasingly important. Although many migrants to
cities come from rural areas and small towns, they form a
decreasing proportion. Job mobility is a major determinant
of intercity migration. So, too, is ease of transportation, especially air transportation. For intermetropolitan migrants
from New York, the two most popular destinations are
Miami and Los Angeles.
40°
50°
FIGURE 3.41 Involuntary migrations in East Africa in the late
twentieth century. Eritreans, Ethiopians, Somalis, and Sudanese
have been forced to move because of raging civil wars. To escape
civil war, Hutus have been forced to migrate from Rwanda, and
residents of Mozambique have fled to Malawi and other
neighboring states.
The relocation of farm workers to industrial urban centers
was prevalent in developed countries during the nineteenth century. Since World War II, migration to large
urban centers has been a striking phenomenon in nearly
all developing countries. Burgeoning capital cities, in particular, have functioned as magnets attracting migrants in
search of “the good life” and employment.
An internally displaced person (IDP) is a person or group
of people who, as a result of conflict usually characterized
by violence, is either strongly compelled or forced to leave
their home. Other compelling factors that could cause displacement are natural or human-made disasters or abuses
of human rights. IDPs are not considered refugees per se
because they do not leave their country’s borders when
seeking sanctuary. The majority of IDPs are on the continent of Africa. Sudan presently has 5 to 6 million IDPs, and
they are located in the eastern provinces of the Darfur region where government forces have been attacking local
villages. Both Iraq and Afghanistan have more than 2.5 million IDPs due to sectarian violence and war. The
Democratic Republic of the Congo in central Africa has several million IDPs, mainly in the eastern provinces, due to
civil war and unrest, while Colombia continues to house
millions of IDPs due to civil war between government
forces and the FARC (Revolutionary Armed Forces of
Colombia).
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The World Economy: Geography, Business, Development
Case Study
The Great Depression (Baby Bust) Ahead
The so-called baby boom is a surge of a new generation
that peaks about every 40 years. The current baby-boom
generation is the largest in world history, 90 million strong
(Figure C from color insert, entitled “U.S. Immigration
Adjusted Birth Index in the 20th Century”).
As baby boomers entered the workforce, they
brought new social and technological ideas and entrepreneurial spirit. This pressure forced older, mature industries and companies to restructure themselves and to
make large investments at all levels to train the new
workers. Initially, this new boomer generation was not
very productive and had low earnings and savings rates.
In the 1960s and 1970s, the baby boomers entered the
workforce, including more working women than ever
before. This large swell entering the workforce required
a huge investment in capital stock and infrastructure: office space, desks, training programs, computer terminals, parking garages, not to mention cafeterias and
clothing stores.
The baby boomers redefined the workplace, causing social and technological change, although their conformist, civic-minded bosses were often not accustomed
to such change. A few of the upstart new entrepreneurs
included Bill Gates (Microsoft), Michael Dell (Dell
Computers), Steven Jobs (Apple), Larry Ellison (Oracle),
and Eric Anderson (Netscape). The result of the influx of
baby boomers was new products, new services, and
new technologies in niche markets, improving service
and reducing service delivery times.
The baby-boom spending wave began in the
1980s, peaking around 2006. According to the U.S.
Bureau of Labor Statistics, family spending follows a
predictable life cycle that results in maximum spending
between ages 46 and 50 (Figure A from color insert,
entitled “Changes in Spending at Each Age and Stage of
Life” and Figure B from color insert, entitled “Personal
Consumption Expenditures”). The great number of baby
boomers moving as consumers in and out of their peak
spending years causes booms and busts in the economy.
The peak in 2006 created the biggest business boom in
the history of the world (Figure D from color insert,
entitled “Spending Wave”).
The baby-boom spending swell changed the demand for products and services and changed how we
work and live. The innovation of the baby-boom generation required a new customized/flexible economy
requiring creativity in products and services and an unprecedented surge in productivity. This business trend
was propelled by the advancement of baby boomers into
their power years when they had the business decisionmaking capacity to change organizations and accommodate new technologies to service their different skills
and lifestyles. The combination of the microcomputer
revolution and the telecommunications revolution, with
the individualistic taste of the baby-boom generation,
meant that there was growth in all segments of the economy, especially those companies that offered customization and flexibility to an individual’s demands and
needs. This meant high-quality and high-value-added
products and services delivered rapidly, and customproduced flexibility with fast response and delivery.
The baby boomers are now retiring, and there is a
new dearth of spending, increased consumer debt, and
strained Social Security and private and public pension
programs. The year 2009 was the end of the baby economic boom, one that will not return for a long time. We
are now at the end of economic growth and prosperity
in most markets, and the beginning of a long downturn
in the U.S. and world economies. Due to generational
spending trends, there have been observed 40-year
growth cycles, for example, in the stock market, ending
in 1929, 1968, and 2009. Additionally, there have been
30-year commodity cycles, which have peaked in 1920,
1950, 1980, and 2009. Three huge bubbles have been
expanding for the past three decades—stocks, commodities, and real estate—and they are beginning to
deflate. In his book, The Great Recession Ahead:
How to Prosper in the Debt Crisis of 2010–2012
(www.hsdent.com), forecaster Harry Dent explains the
“Perfect Storm” as peak oil prices and real estate prices
collide with the massive downturn in generational
spending and the stock market—or the baby bust—leading to more severe downturns for the global economy
and individual investors alike. He argues that the next
broad-based global bull market will not occur until
2020–2025, because of the dearth of consumer spending
and this baby bust. It will take until this time for the children of the baby boomers, the generation Xers, to enter
their peak spending years and drive the market upward
once again.
Migration to Exurbs: Counterurbanization
Another major spatial change is occurring due to the
changing demographics in the workplace. A geographical shift of the population is occurring from the urban
area as the workforce begins moving to the exurbs, or
outer suburbs, and back to smaller towns and communities. This trend, which began in the 1970s, is called
counterurbanization. The move to the exurbs is being
propelled by (1) retirees, (2) those seeking relief from
the high-cost suburbs, and (3) those desiring a greater
nature or native lifestyle. These shifts will be made possible by the electronic cottage—the increased power of
computers and telecommuting in ways that have not
been used in the past. This power will be employed to
Chapter 3 • Population
decentralize today’s firms through the communication
revolution—the moving of information rather than people. As baby boomers moved into their peak spending
years, bolstered by two-income family earnings, they
spent more than ever before on high-quality durable
goods and convenience items, and less on the standardized, mass-produced items and services of the past. Just
as in flexible manufacturing, baby-boomer consumer demand centered on the high-quality, high-choice, niche
markets. Labor patterns of the future will focus on exurban personal freedom and an ability to control one’s
time schedule and work location, health, and environment, rather than only securing high income and retirement benefits, which in themselves are disappearing fast
in the new post-boom economy. Such new workers in
the companies of the year 2015 will not so much be
“doing their own thing” as “controlling their own time
and space” in exurbia.
The X generation (or gen X, children of the baby
boomers) will provide business growth opportunities for
housing, office buildings, restaurants, all manner of personal and business services, home conveniences, entertainment, and more. Small town exurbs will become
boom towns, and as many as 80 million North
Americans could shift outside metropolitan areas by the
year 2015.
Such boom towns will provide a slashed cost of
living, especially for food and real estate needs, but
ample opportunity to start up a carbon copy business,
which is a successful business idea transplanted from a
major city to the exurbs that share common consumer
demographics and lifestyles with the city. Starbucks, Red
Box Videos, Arco, Charles Schwab Investment, 24-Hour
Fitness, and Papa John’s Pizza are examples. The carbon
93
copy business will be an important exurb model for
small firms, while improving the quality of life for individuals. Other exurbanites will connect to cities and
markets remotely through the Internet, while leveraging
information technologies to exploit the growth of small
towns.
Retirement exurbs on the East Coast include
coastal Maine; Cape Cod; the Green and White
Mountains of Vermont and New Hampshire; coastal
areas of New Jersey, Delaware, and Maryland; southern
coastal zones of South Carolina and Georgia; and
the Florida peninsula (see map available at
www.FrederickStutz.com). Inland from the East Coast
are retirement exurbs in southern Quebec, central
Pennsylvania, the Blue Ridge in central Virginia, the
Piedmont of western North Carolina, South Carolina,
and the Smoky Mountains of eastern Tennessee. Favorite
Midwestern exurbs include northern Michigan and
Wisconsin, Kentucky Lake, and the Ozarks of southern
Missouri. Western exurbs are booming due to many rural
amenities and available land for development at a low
cost. South Texas, Padre Island, eastern New Mexico,
the western Colorado Rockies, western Arizona, Las
Vegas, and the northern Rockies of western Montana
and northwestern Wyoming are growing into such regions. The West Coast is lined with such exurban centers
as British Columbia, Victoria Island, the Puget Sound
and coastal Washington and Oregon, northern California
and the Sierra Nevada Mountains, the central California
coast, and San Diego County, including coastal Baja
California, in Mexico.
(Please see Chapter 10, pages 283–284 and Figure
10.9 through 10.11 for further discussion and illustrations
of this topic.)
Summary
Because people are the single most important element in
the world economy, it is essential to learn about population distribution, qualities, and dynamics. In this chapter,
we began by examining the uneven distribution of people
over the earth’s surface. The vast majority of the 6.7 billion
people alive today live in the developing world, particularly in Asia, where more than half reside. We emphasized
that the distribution of people is a reflection of centuries,
or even millennia, of uneven economic development,
particularly following the Industrial Revolution and the formation of global colonial empires in the eighteenth and
nineteenth centuries, which dramatically concentrated
populations in cities and along the coasts. We noted population density is not an adequate variable to account for
economic well-being: Some of the world’s poorest countries are sparsely inhabited, and some of the wealthiest,
such as the Netherlands, are very dense.
We also examined the processes of population
change. The two major components of population change
are migration and natural increase. The principal force affecting world population distribution used to be migration;
now it is natural increase, the difference between fertility
and mortality rates. This chapter explored the nature of
population structures, particularly the age-sex distribution portrayed by population pyramids. This device is
useful in contrasting the distribution of people by age
and sex among different countries or the same country
over time, particularly to reveal how changing economic circumstances, by changing fertility and mortality
rates, create larger or smaller pools of young and elderly.
This line of thought is useful in forecasting the future
population status of regions or countries, including, for
example, the changing size and composition of labor
forces.
94
The World Economy: Geography, Business, Development
Malthusian conceptions of population change held
that the growth in the number of people must inevitably
outstrip the resource base of the planet, or parts thereof.
While this position was useful in noting that unconstrained
population growth cannot go on unchecked indefinitely, it
also was undermined by its simplistic views of why people
have children and derailed by the growth in productivity
of the Industrial Revolution. Indeed, by focusing on
population growth as the source of the world’s complex
problems, Malthusianism tends to blame the victim (i.e.,
the poor) and ignore other, more important political and
economic forces.
The demographic transition offers a superior model
of population growth in that it links fertility and mortality
rates, and thus natural growth, to the economic dynamics
of industrialization, urbanization, and expanding capitalism. This perspective offers a compelling explanation as to
why crude birth rates are high in poor countries and why
in the premodern context natural growth rates were low.
Further, it explains the declines in death and birth rates
associated with economic development, including the
essential question of why couples have fewer children as
their incomes rise. Thus, unlike Malthusianism, it embeds
fertility in its historical and economic context, and its conclusions about the future of the world’s population growth
are markedly different. Although the population growth
rate is falling, the world’s population is projected to increase for decades to come, due to the large momentum
coming from the vast and youthful population of the developing world.
In addition to fertility and mortality, migration is a
major force in shaping the geography of population.
Excluding involuntary migration such as slavery or impelled migration (typically from wars), we noted that spatial discrepancies in economic opportunities are the major
forces driving migration. The causes include both push
and pull factors, but typically center on unemployment
rates and average incomes. The great transcontinental migration streams of the nineteenth century have given way
to flows from the developing to the developed world.
Young people, particularly males, constitute the largest
group of migrants. Migration has important impacts on
local labor markets, affecting the supply of labor and thus
wage rates. Thus, economic and demographic forces are
fused unevenly over the geographic landscape.
Key Terms
baby boom 81
birth rate 64
death rate 64
demographic
transition 69
diminishing marginal
returns 65
doubling time 64
infant mortality rate 73
labor force 72
labor migration theory 85
Limits to Growth 67
Malthusianism 66
migration 84
natural growth rate
(NGR) 64
negative population
growth 82
neo-Malthusianism 67
net migration rate
(NMR) 64
population density 60
population pyramid 81
push-and-pull factors 84
total fertility rate 66
zero population growth
(ZPG) 82
Study Questions
1. Summarize the spatial distribution of the world’s population.
2. Define crude fertility and death rates.
3. What are the mathematics of the four major components of
population growth?
4. Why did Malthus have such a gloomy view of the future?
5. How do neo-Malthusians resemble and differ from
Malthusians?
6. What are the four stages of the demographic transition? Give
examples of each.
7. What explains the world map of total fertility rates?
8. Did doctors alone reduce death rates?
9. What are the major causes of death in the United States?
10. Why are the poorest countries growing the most rapidly?
11. What is a population pyramid and how does it vary between
developed and developing countries?
12. Summarize the major causes of international migration.
13. What are some consequences of international migration?
14. Where will the bulk of the world’s population growth occur
in the twenty-first century? Why?
15. When were the two largest periods of immigration in the
United States?
Chapter 3 • Population
95
Suggested Readings
Kirk, D. 1996. “Demographic Transition Theory.” Population
Studies 50:361–388.
Newbold, K. 2006. Six Billion Plus: Population Issues in the
Twenty-First Century. Boulder, CO: Rowman and Littlefield.
Peters, G., and R. Larkin. 2005. Population Geography: Problems,
Concepts and Prospects. New York: Kendall/Hunt.
World Resources Institute. 2004. World Resources. New York:
Oxford University Press.
Web Resources
U.S. Population Estimates
http://www.census.gov/population/www/projections/
popproj.html
Population Reference Bureau
http://www.prb.org/Publications/Datasheets/2010/
2010wpds.aspx
The U.S. Census Bureau, in association with the Federal-State
Cooperative Program for Population Estimates (FSCPE), has
recently released updated population estimates at the national, state, and county levels.
Up-to-date population estimates of the world and countries,
searchable database, webcasts, and more.
The Census Bureau
http://www.census.gov
Various data and reports about the health of the world’s population,
including diseases.
World Health Organization
http://www.who.int/en/
The Census Bureau Web site was designed to enable “intuitive”
use and is intended to be visually appealing, concise, and
quick-loading. It was designed so users can effectively locate
and utilize the resources the site has to offer, such as the
“Population Clock” and its small search engine.
Log in to www.mygeoscienceplace.com for videos, In the
News RSS feeds, key term flashcards, web links, and self-study
quizzes to enhance your study of population.
OBJECTIVES
쑺 To describe the nature, distribution, and limits of the
world’s resources
쑺 To examine the nature of world food problems and
the difficulties of solving them
쑺 To describe the distribution of strategic minerals and
the time spans for their depletion
Open-pit mining operations, such as Kennecott’s
Bingham Canyon Mine in Utah, are huge, efficient,
and capital-intensive enterprises, but also do
enormous damage to the local environment.
쑺 To consider the causes and consequences of the
energy crisis and to examine alternative energy
options
쑺 To examine the major causes of environmental
degradation
CHAPTER
Resources and
Environment
4
conomic growth and prosperity depend partly on the availability of natural resources and the quality of the
environment. There is growing concern that the consumption of inputs and goods in developed countries, and
increasingly in developing countries, is depleting the world’s stock of resources and irreparably degrading the
natural environment. What can be done to effectively manage resources and protect the environment?
Optimists believe that economic growth in a market economy can continue indefinitely; they see relatively few
limits in raw materials and great gains in technological productivity. In contrast, pessimists assert that there are inherent limits to growth imposed by the finiteness of the earth—by the fact that air, water, minerals, space, and usable
energy sources can be exhausted or ecosystems overloaded. They believe these limits are near and, as evidence,
point to existing food, mineral, and energy shortages and to areas now beset by deforestation and erosion.
How can we create a habitable and sustainable world for generations to follow? One solution is to transform our
present growth-oriented lifestyle, which is based on a goal of ever-increasing production and consumption, to a
balance-oriented lifestyle designed for minimal environmental impact. A balance-oriented lifestyle would include
an equitable and modest use of resources, a production system compatible with the environment, and appropriate
technology. The aim of a balance-oriented world economy is maximum human well-being with a minimum of material consumption. Growth occurs, but only growth that truly benefits all people, not just the elite few. However, what
societies, rich or poor, are willing to dismantle their existing systems of production to accept a lifestyle that seeks satisfaction more in quality and equality than in quantity and inequality?
This chapter deals with the complex components of the population–resources issue. Have population and economic growth rates been outstripping food, minerals, and energy? What is likely to happen to the rate of demand for
resources in the future? Could a stable population of 10 billion be sustained indefinitely at a reasonable standard of
living utilizing currently known technology? These are the critical questions with which this chapter is concerned.
E
RESOURCES AND POPULATION
Popular opinion in the industrial West generally appreciates the need to reduce population growth but overlooks the
need to limit economic growth that exploits resources. Most people in the economically developed world suffer from
a view that resources are limitless and do not appreciate that our rapid consumption of them ultimately threatens our
affluent way of life. The First World is, in short, liquidating the resources on which our way of life was built. The
growth of some developing countries is aggravating the situation. Their growing populations put increasing pressure
on resources and the environment, and many aspire to affluence through Western-style urban industrialization that
depends on the intensive use of resources. Poor countries generally do not have the means for running the highenergy production and transportation systems manifest in the industrial West. The production of a middle-class basket of luxury goods (e.g., cars) requires six times as much in resources as a basket of essential or basic goods (e.g.,
food). The expansion of gross domestic product (GDP) through the production of middle-class baskets means that
only a minority of people in poor countries would enjoy the fruits of economic growth. Resource constraints prevent
the large-scale production of consumer goods for the growing populations of the developing countries.
However, numerous measures of material well-being (e.g., per capita incomes, calories consumed, life expectancy) show that people in most, but not all, countries are better off today than their parents were. But there
are problems with this optimistic assessment. These improvements are based on averages; they say nothing about
the distribution of material well-being. Another difficulty is that the world may be achieving improvements in material well-being at the expense of future generations. This would be the case if economic growth were using up
97
The World Economy: Geography, Business, Development
the world’s resource base or environmental carrying capacity faster than new discoveries and technology could
expand them.
Carrying Capacity and Overpopulation
The population–resources problem is much debated, particularly during periods of economic shortages and rising
prices. Neo-Malthusian pessimists believe that the world
will eventually enter a stationary state at carrying
capacity, which is the maximum population that can be
supported by available resources (Chapter 3). They point
to recurring food crises and famines in Africa as a result of
overpopulation. However, carrying capacity, an idea borrowed from ecology, is simplistic in that it ignores the historical, political, and technological context in which the production and consumption of goods occurs. Human beings
are not mindless products of an unchanging nature and are
capable of modifying their environment and altering the
constraints and opportunities it presents. On the other hand,
optimists believe in the saving grace of modern technology.
Technological advances in the past 200 years have raised
the world’s carrying capacity, and future technical innovations as well as the substitution of new raw materials for old
hold the promise of raising carrying capacity still further.
The answer to the population–resources problem also
depends on the standard of living deemed acceptable. To
give people a minimal quality of life instead of one resembling the American middle class would require vast quantities of additional resources. The establishment of an economy that provides for the basics of life—sufficient food,
housing, education, transportation, and health care—
depends on our capacity to develop alternatives to the
high-energy, material-intensive production technologies
characteristic of the industrial West. Already, there are outlines of a theory of resource use suited to the needs of a
basic goods economy. Some of the main ideas are: (1) the
adoption of organic agriculture; (2) the use of renewable
sources of energy; (3) the use of appropriate technology,
labor-intensive methods of production, and local raw materials; and (4) the decentralization of production in order to
minimize the transport of materials and their associated carbon footprints. These productive forces would minimize
the disruption of ecosystems and engage the unemployed
in useful, productive work. Typically, economies that produce essential goods for human consumption face neither
excessive unemployment nor overpopulation. Moreover,
secure supplies of basic goods provide a strong motivation
for reducing population size, as families no longer require
many children to ensure economic prosperity.
Resources and Reserves
Natural resources have meaning only in terms of historically specific technical and cultural appraisals of nature and
are defined in relation to a particular level of development.
Resources, designated by the larger box in Figure 4.1,
include all substances of the biological and physical environment that may someday be used under specified technological and socioeconomic conditions. Because these
conditions are always subject to change, we can expect
our determination of what is useful to also change. For example, petroleum was not considered a resource until the
mid-nineteenth century, when the Industrial Revolution
led to rising demand for fuels. Uranium, once a waste
product of radium mining of the 1930s, is now a valuable
ore. Taconite ores became worthwhile in Minnesota only
after production from high-grade, nonmagnetic iron ores
declined in the 1960s.
At the other end are reserves, designated by the box in
the lower left corner of Figure 4.1. Reserves are quantities
of resources that are known and available for economic
exploitation with current technologies at current prices.
When current reserves begin to be depleted, the search for
additional reserves is intensified. Estimates of reserves are
also affected by changes in prices and technology.
Projected reserves represent estimates of the quantities
likely to be added to reserves because of discoveries and
changes in prices and technologies projected to occur
within a specified period, for example, 50 years.
Renewable and Nonrenewable Resources
There is a major distinction between nonrenewable and
renewable resources. Nonrenewable resources consist
of finite masses of material, such as fossil fuels and metals, which cannot be used without depletion. They are,
Cost of Mining
98
Resources
Projected Reserves
Reserves
Uncertainty of Existence
TYPES OF RESOURCES AND THEIR LIMITS
All economic development comes about through the use of
human resources (e.g., labor power, skills, and intelligence).
In order to produce the goods and services people demand
in today’s global economy, we need to obtain natural resources. What are natural resources and what are their limits?
FIGURE 4.1 Classification of resources. Resources include all
materials of the environment that may someday be used under
future technological and socioeconomic conditions. Reserves are
resources that are known and available with current technologies
and at current prices. Projected reserves are reserves based on
expected future price trends and technologies available.
Chapter 4 • Resources and Environment
for all practical purposes, fixed in amount, or in some
cases, such as soils, they form slowly over time.
Consequently, their rate of use is important. Large populations with high per capita consumption of goods deplete
these resources fastest. Many nonrenewable resources are
completely altered or destroyed by use; petroleum is an
example. Other resources, such as iron, are available for
recycling. Recycling expands the limits to the sustainable
use of a nonrenewable resource. At present, these limits
are low in relation to current mineral extraction.
Renewable resources are those resources capable of
yielding output indefinitely without impairing their productivity. They include flow resources such as water and
sunlight and stock resources such as soil, vegetation,
fish, and animals. Renewal is not automatic, however; resources can be depleted and permanently reduced by misuse. Productive fishing grounds can be destroyed by overfishing. Fertile topsoil, destroyed by erosion, can be
difficult to restore and impossible to replace. The future of
agricultural land is guaranteed only when production does
not exceed its maximum sustainable yield. The term
maximum sustainable yield means maximum production consistent with maintaining future productivity of a renewable resource.
In our global environment, the misuse of a resource in
one place affects the well-being of people in other places.
The misuse of resources is often described in terms of the
tragedy of the commons, a term coined by biologist
Garrett Hardin in 1968. This metaphor refers to the way
public resources are ruined by the isolated actions of individuals, which occurs when the costs of actions are not
captured in market prices. Originally it referred to the tendency of shepherds to use common grazing land; as each
one sought as much of the commons as possible, it became overgrazed (Figure 4.2). Similarly, people who fish
are likely to try to catch as many fish as they can, reasoning that if they don’t, others will. Thus, the tragedy of the
commons exemplifies a market failure, a problem generat-
99
ed by individual actors who behave “rationally” but collectively create an irrational and self-destructive outcome.
Similarly, dumping waste and pollutants in public waters
and land or into the air is the cheapest way to dispose of
worthless products. Firms are generally unwilling to dispose of these materials by more expensive means unless
mandated by law.
Sometimes resources are unavailable, not because
they are depleted but because of politics. Resources are
under the control of sovereign nation-states. Many wars in
the twentieth century have been resource wars. For example, Japan invaded Korea and Taiwan in the 1890s largely
in order to obtain arable land and coal. The Iraqi invasion
of Kuwait in 1990 and the U.S. invasion of Iraq in 2003
were largely motivated by concerns over the region’s oil
supplies. In the Middle East, fierce national rivalries make
water a potential source of conflict: While some parts are
blessed with adequate water supplies, most of the region
is insufficiently supplied. Some observers predict that political tension over the use of international rivers, lakes,
and aquifers in the Middle East may escalate to war in the
next few years.
Food Resources
Thanks to scientific advances in farming, world food production has been increasing faster than population (Figure
4.3). While there is sufficient food to feed everyone in the
world, there are huge geographical variations in people’s
access to a sufficient number and quality of calories
(Figure 4.4). The populations of the industrialized world
are generally well fed; indeed, in the United States, the
major dietary problem is an overabundance of calories and
an epidemic of obesity. In the developing world, in contrast, hundreds of millions of people worldwide still go
hungry daily. With demand for food expected to grow at
4% per year over the next 20 to 30 years, the task of
meeting that need will be more difficult than ever before.
FIGURE 4.2 The Kenyan rangelands on
which these herders’ cattle graze are
in jeopardy. With growing grazing
pressures, more than 60% of the world’s
rangelands and at least 80% of African,
Asian, and Middle Eastern rangelands are
now moderately to severely desertified.
About 65 million hectares of once
productive land in African have become
desert during the past 50 years.
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The World Economy: Geography, Business, Development
World Grain Production and Consumption 1960–2008
in Millions of Metric Tons (MMT)
2,500
2,000
MMT
1,500
1,000
500
19
60
19
64
19
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20
00
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04
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08
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Year
Production
Consumption
FIGURE 4.3 World grain production, 1960–2007. While total
output has risen steadily, the amount of grain per person has
remained relatively constant.
A record explosion in the world’s population coupled with
the problem of poverty threatens the natural resources on
which agriculture depends, such as topsoil. To make matters worse, environmental degradation perpetuates poverty,
as degraded ecosystems diminish agricultural returns to
poor people.
The gulf between the well fed and the hungry is vast.
Average daily calorie consumption is 3300 in developed
countries and 2650 in developing countries. But these are
average figures. There are people in the developed world
who go hungry and some people in Africa with plenty to
eat. Averages mask the extremes of undernutrition—a
lack of calories—and overconsumption. Even with a high
calorie satisfaction, people may suffer from chronic
malnutrition—a lack of enough protein, vitamins, and
essential nutrients. The most important measure in assessing nutritional standards is the daily per capita availability
of calories, protein, fat, calcium, and other nutrients. In the
world today, the sharpest nutritional differences are not
from country to country or from one region to another
within countries. They are between rich and poor people.
The poor of the earth are the hungry, and those with the
least political power often suffer in terms of an insufficient
food supply.
Hunger among the poor of the world is often attributed to deforestation, soil erosion, water-table depletion,
the frequency and severity of droughts, and the impact of
storms such as hurricanes. Although the environment does
have a bearing on the food problem, it has limited significance compared to the role of social conditions such as
war and a world economy whose rules are tilted against
the impoverished. Subsidized agricultural exports from the
United States, for example, have bankrupted millions of
farmers in the developing world, reducing those countries’
ability to feed themselves.
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MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.4 Caloric intake as a percentage of adult daily requirements. Highly developed regions of the world receive, on
average, 130% of the daily caloric requirements (2400 calories per day) set by the United Nations Food and Agricultural
Organization (FAO). Some countries in South America, South Asia, and many countries in Africa receive less than 90% of the
daily caloric requirements needed to sustain body and life. Averages must be adjusted according to age, gender, and body
size of the person and by regions of the world. Although it appears from this map that the great majority of the world is in
relatively good shape with regard to calories per capita, remember that averages don’t reveal destitute groups in each
country that receive less than their fair share. Again, the situation is most severe in the Sahel, or center belt of Africa.
Chapter 4 • Resources and Environment
Population Growth
artificial political boundaries that fuel tribal conflicts and secessionist wars, rapid population growth, and lack of foreign
investment. Fifteen countries are experiencing exceptional
food emergencies. Of the 28 countries with food-security
problems, 23 are in sub-Saharan Africa (Figure 4.5). Indeed,
famine, the most extreme expression of poverty, is now
mainly restricted to Africa. The fact that famine has been declining for decades in Latin America and Asia suggests that
famine can be eliminated. But how? Certainly, bringing an
end to Africa’s multiple civil wars would go a long way toward eradicating famine. Africa has witnessed countless brutal conflicts that have killed tens of millions of people, most
recently in the Congo. Such conflicts divert resources from
civilian use, interrupt the production of crops, terrorize populations, destroy the infrastructure, destabilize markets, and
complicate the stability of the governments, creating famine
and prohibiting the flow of development aid. But peace is
not in itself a sufficient condition for removing acute hunger.
Appropriate policies and investments are needed to stimulate rural economic growth that underpins food security and
to provide safety-net protection for the absolute poor. Rural
infrastructure development, credit to farmers, and land redistribution are also necessary steps in this regard (Figure 4.6).
Price controls on food crops create disincentives to produce,
and heavily subsidized food imports from the developed
world, especially the United States, bankrupt farmers. Often
elites in the developing world care more about their foreign
bank accounts than the well-being of their own populations.
The pace of urbanization in the developing countries
has also contributed to the food problem. In recent
decades, hundreds of millions of people who previously
lived in rural areas and produced some food have relocated
Population growth is one of many causes of the food
problem, and Malthusian views often influence the public’s opinion of this issue. However, presently, at the global level, there is no food shortage. In fact, world food
production grew steadily from 1961 to 2008. Even over the
next several decades, production increases, assuming continuing high investments in agricultural research, are likely
to be sufficient to meet effective demand and rising world
population. However, some are more pessimistic about future world food production. They argue that food production will be constrained by the limits to the biological productivities of fisheries and rangelands, the fragility of
tropical and subtropical environments, massive overfishing
of the world’s oceans, the increasing scarcity of fresh
water, the declining effectiveness of additional fertilizer
applications, and social disintegration in many developing
countries.
The success of global agriculture has not been shared
equally. In Africa, per capita food production has not been
able to keep up with population growth. By contrast, Asia,
and to a lesser extent Latin America, have experienced
tremendous successes in per capita terms. The reasons for
this are complex and have to do with the relative equality
in patterns of land ownership, government policies toward
farmers (e.g., price ceilings on agricultural crops), the respective ability of countries to build infrastructures and extend credit to small farmers, and the role of different states
in the world economy.
The food and hunger problem is most severe in subSaharan Africa, a region that has long suffered from centuries
of colonial misrule, corrupt and uncaring governments,
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0
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.5 Developing countries with low or critical food security indexes. Africa remains the continent most seriously
challenged by food shortages. Fifteen countries in the region are facing critical food emergencies. Of the 28 countries with
household food security problems, 23 are in sub-Saharan Africa.
102
The World Economy: Geography, Business, Development
alleviating poverty in developing nations. This is no easy
task, and while parts of the developing world have made
great economic strides over the past 40 years (e.g., East
Asia), much of Africa and parts of India and Latin America
remain mired in poverty and hunger. Alleviating poverty,
and thus hunger, is the subject of Chapter 14, in which a
host of economic development problems and strategies is
discussed.
Maldistribution
FIGURE 4.6 Third World farmers, such as these in Indonesia,
depend on high rice yields. Rice is the staple food for more than
one-half the world’s population. While rice and other grains supply
energy and some protein, people must supplement grains with
fruits, nuts, vegetables, dairy products, fish, and meat in order to
remain healthy.
to urban areas, where they must buy food. As a result of
urbanization, there is a higher demand for food in the face
of lower supply.
Poverty
The inequitable allocation of food is directly related to
poverty, the single greatest cause of the hunger problem.
Hungry people are inevitably poor people who lack the
purchasing power to feed themselves. Under capitalism,
food goes to customers who can afford it, not to where it
is needed most. During famines, the prices of foods rise
dramatically, with disastrous results for the poor. From the
perspective of the world market, where food is produced
is immaterial as long as costs are minimized and a profitable sale can be made. Thus, in the midst of hunger, food
may be exported for profit. Since the populations of the
developed world can afford to pay much more for food
than their counterparts in less developed countries, it is
not surprising that the market fails to include the poor.
Solving the world food problem is ultimately a matter of
The problem of world food distribution has three components. First, there is the problem of transporting food from
one place to another. Although transport systems in developing countries lack the speed and efficiency of those in
developed countries, they are not serious impediments
under normal circumstances. The problem arises either
when massive quantities of food aid must be moved
quickly or when the distribution of food is disrupted by
political corruption and military conflict.
Second, serious disruptions in food supply in developing countries are traceable to problems of marketing and
storage. Food is sometimes hoarded by merchants until
prices rise and then sold for a larger profit. Also, much
food in the tropics is lost due to poor storage facilities.
Pests such as rats consume considerable quantities, and investments in concrete storage containers can help to minimize this loss.
A third aspect of the distribution problem is in the
inequitable allocation of food. Only North America,
Australia, and Western Europe have large grain surpluses.
But food grain is not always given when it is most needed.
Food aid shipments and grain prices are inversely related.
Thus, U.S. food aid was low around 1973, a time of major
famine in the Sahel region of Africa, because cereal prices
were at a peak.
Closely associated with poverty as a cause of hunger
in developing countries is the structure of agriculture, including land ownership. Land is frequently concentrated in
the hands of a small elite. In Bangladesh, less than 10% of
households own more than 50% of the country’s cultivable
land; 60% of Bangladesh’s rural families own less than 2%.
A similar situation applies in Latin America (Chapter 14).
Many rural residents own no land at all. They are landless
laborers who depend on extremely low wages for their
livelihoods. But without land, there is often no food.
Civil Unrest and War
Political conflict is an important cause of hunger and
poverty. Occasionally, governments withhold food to punish rebellious populations. Devastating examples of depriving food to secessionist areas include the government
in Nigeria starving the Biafrans in the 1970s and the government in Ethiopia starving the Eritreans into submission,
with 6 million people dying in the process. In Sudan, the
Arab government’s genocide against the African population
in Darfur has led to the starvation of millions. In Zimbabwe,
the government of Robert Mugabe has systematically denied
Chapter 4 • Resources and Environment
food to his political opponents in order to quash domestic
opposition. Civil wars, which are frequent in developing
countries whose political geographies were shaped by
colonialism and which have unstable governments, devastate agricultural production. Without a stable political environment, the social mechanisms necessary to produce and
distribute food to the hungry cannot operate.
Environmental Decline
As population pressure increases on a given land area, the
need for food pushes agricultural use to the limits, and
marginal lands, which are subject now to desertification
(Figure 4.7) and deforestation, are brought into production. Removal of trees allows a desert to advance, because
the windbreak is now absent. The cutting of trees also
lowers the capacity of the land to absorb moisture, which
diminishes agricultural productivity and increases the
chances of drought. Desertification and deforestation are
symptoms as well as causes of the food problem in developing countries (Figure 4.8). Natural resources are mined
by the poor to meet the food needs of today; the lower
productivity resulting from such practices is a concern to
be put off until tomorrow.
Government Policy and Debt
In many developing countries, government policies have
emphasized investment in their militaries and cities at the
expense of increasing agricultural production. In addition,
some governments in Africa have provided food at artifi-
cially low prices in order to make food affordable in cities.
While this practice keeps labor affordable for multinational
corporations and placates the middle class, it robs farmers
of the incentive to farm. Farmers cannot make a living
from artificially low commodity prices.
The average debt of many developing countries runs
into the billions. In 2008, aggregate debt of African countries stood at $260 billion. Simply put, African countries
have no surplus capital to invest in their infrastructure or
food production systems. Instead, they have to enforce
austerity, reducing levels of government services in support of economic growth, particularly agricultural growth.
Debt repayments subsume a large share of foreign revenues, decreasing funds available for investment.
In recent decades, agriculture in developing countries
has expanded. This expansion is in the export sector, not
in the domestic food-producing sector, and it is often the
result of deliberate policy. Governments and private elites
have opted for modernization through the promotion of
export-oriented agriculture. The result is the growth of an
agricultural economy based on profitable export products
and the neglect of those aspects of farming that have to do
with small farmers producing food for local populations.
Imports from the developed world, particularly the
United States, also exacerbate food problems. For example, after the passage of the North American Free Trade
Agreement (NAFTA) in 1994, massive U.S. exports of
government-subsidized corn caused the price of corn in
Mexico to fall by 70%, bankrupting 2 million Mexican
farmers. All over the world, farmers protest subsidized U.S.
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FIGURE 4.7 World desertification. The main problem is overuse by farmers and herders. Approximately 10% of the earth’s
surface has lost its topsoil due to overuse of lands by humans, creating desertification. An additional 25% of the earth’s
surface is now threatened. Topsoil is being lost at a rate of approximately 30 billion metric tons per year. Approximately
20 million acres of agricultural land are lost every year to desertification by agricultural overuse. When plants are uprooted
by overplowing or by animals, the plants that stabilized shifting soil are removed. When the rains come, water erosion can
wash away the remaining topsoil.
104
The World Economy: Geography, Business, Development
FIGURE 4.8 Water for Chad. Water is an important ingredient
to sustain human life. Fifty percent of the world’s people do not
have adequate, clean water. Villagers in Chad are delighted as
the water pours out of a new water system they have worked
together to construct. The system is part of an antidesertification
project funded by the United Nations Development Program and
the U.S. government. Acute water shortage in many parts of the
world requires solutions that will be costly, technically difficult,
and politically sensitive. Water scarcity contributes to the
impoverishment of many countries in east and west Africa,
threatening their ability to increase food production fast
enough to keep pace with modern population growth.
grain exports (produced by a country that celebrates the
“free market”) for undermining local food-producing systems. The issue has also become a major obstacle in world
trade negotiations.
INCREASING FOOD PRODUCTION
Yield increases will be the major source of future food
production growth. These can be achieved through the
expansion of arable land and increased crop intensity. The
result of these methods of increasing food supply would
be to put additional pressures on land and water resources
and contribute significantly to human-made sources of
greenhouse gases.
Expanding Cultivated Areas
The world’s potentially farmable land is estimated to be
about twice the present cultivated area. Vast reserves are
theoretically available in Africa, South America, and
Australia, and smaller reserves in North America, Russia,
and Central Asia. However, many experts believe that the
potential for expanding cropland is disappearing in most
regions because of environmental degradation and the
high cost of developing infrastructure in remote areas.
About half of the world’s potentially arable land lies within the tropics, especially in sub-Saharan Africa and Latin
America. Much of this land is under forest in protected
areas, and most of it suffers from soil and terrain constraints as well as excessive dryness. In Asia, two-thirds of
the potentially arable land is already under cultivation; the
main exceptions are Indonesia and Myanmar. South Asia’s
agricultural land is almost totally developed.
The expansion of tropical agriculture into forest and
desert environments contributes to deforestation and desertification. Since World War II, half of the world’s rain
forests in Africa, Asia, and Latin America have disappeared. Conversion of this land to agriculture has entailed
high costs, including the loss of livelihoods for the people
displaced, the loss of biodiversity, increased carbon dioxide emissions, and decreased carbon storage capacity.
Desertification—the growth of deserts due to humanly
caused factors, typically on the periphery of natural
deserts—threatens about one-third of the world’s land surface and the livelihood of nearly a billion people. Many of
the world’s major rangelands are at risk. The main factor
responsible for desertification is overgrazing, but deforestation (particularly the cutting of fuel wood), overcultivation of marginal soils, and salinization caused by poorly
managed irrigation systems are also important influences.
Deforestation and desertification are destroying the land
resources on which the development of the developing
countries depends.
Raising the Productivity of Existing Cropland
The quickest way to increase food supply is to raise the
productivity of land under cultivation. Remarkable increases in agricultural yields have been achieved in developed countries through the widespread adoption of new
technologies. Corn yields in the United States are a good
example. Yields expanded rapidly with the introduction
of hybrid varieties, herbicides, and fertilizers. Much of the
increase in yields came through successive improvements
in hybrids.
The approach for increasing yields in developed countries has been adopted in developing countries. One approach is known as the Green Revolution, started by
Nobel-laureate American agronomist Norman Borlaug in
the 1960s, in which new high-yielding varieties of wheat,
rice, and corn are developed through plant genetics,
including crops that grow more quickly, perhaps yielding several harvests per year, are more pest and drought resistant, and have higher protein content. The Green
Revolution has had enormous impacts in Asia and Mexico,
increasing the food supply, but it is not a panacea. It depends on machinery, for which the poor lack sufficient
capital to buy. It depends on new seeds, which poor farmers cannot afford. It depends on chemical fertilizers, pesti-
Chapter 4 • Resources and Environment
cides, and herbicides, which have contaminated underground water supplies as well as streams and lakes. It depends on large-scale, one-crop farming, which is ecologically unstable because of its susceptibility to pestilence. It
depends on controlled water supplies, which have increased the incidence of malaria, cholera, schistosomiasis,
and other diseases. It is confined largely to a group of 18
heavily populated countries, extending across the tropics
and subtropics from South Korea to Mexico (Figure 4.9). It
is also benefiting countries that include half of the world’s
population. This approach involves the widespread application of artificial fertilizers, an increasingly common practice throughout the developing world (Figure 4.10).
Politically, the Green Revolution promises more than
it can deliver. Its sociopolitical application has been largely
unsatisfactory. Even in areas where the Green Revolution
has been technologically successful, it has not always benefited large numbers of hungry people without the means
to buy the newly produced food. It has benefited mainly
Western-educated farmers, who were already wealthy
enough to adopt a complex integrated package of technical inputs and management practices. Farmers make bigger profits from the Green Revolution when they purchase
additional land and mechanize their operations. Some effects of labor-displacing machinery and the purchase of
additional land by rich farmers include agricultural unemployment, increased landlessness, rural-to-urban migration, and increased malnutrition for the unemployed who
are unable to purchase the food produced by the Green
Revolution.
80°
105
The Green Revolution generated substantial increases
in agricultural output worldwide. However, world hunger
remains a serious problem, indicating that the problem is
not so much one of food production, but of food demand in
the economic sense (i.e., purchasing power). Unfortunately,
the Green Revolution does nothing to increase the ability
of the poor to buy food. Hunger is a complex and intractable problem in large part because it is so closely tied
to questions of poverty and economic development, not
simply increasing agricultural productivity.
The Green Revolution has helped to create a world of
more and larger commercial farms alongside fewer and
smaller peasant plots. However, given a different structure
of land holdings and the use of appropriately intermediate
technology, the Green Revolution could help developing
countries on the road toward agricultural self-sufficiency
and the elimination of hunger. Intermediate technology is
a term that means low-cost, small-scale technologies intermediate between primitive stick-farming methods and
complex agroindustrial technical packages.
Creating New Food Sources
Expanding cultivated areas and raising the productivity of existing cropland are two methods of increasing food supply. A
third method is the identification of new food sources. There
are three main ways to create new food sources: (1) cultivating the oceans, or mariculture; (2) developing high-protein
cereal crops; and (3) increasing the acceptability and palatability of inefficiently used present foods.
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MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.9 The chief countries of the Green Revolution. The Green Revolution was the result of plant scientists genetically
developing high-yielding varieties of staple food crops such as rice in East Asia, wheat in the Middle East, and corn in Middle America.
By crossing “super strains” that produced high yields with more genetically diverse plants, both high yield and pest resistance were
introduced.
106
The World Economy: Geography, Business, Development
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500
FIGURE 4.10 Artificial fertilizer usage. The application of artificial fertilizers, as opposed to natural ones obtained from
people and animals, may enhance agricultural productivity but also makes economies more dependent on petroleum.
in dire threat of being heavily overfished, with catastrophic implications for marine ecosystems as well as the future
world food supply. Over the past 30 years, the total tonnage of fish caught by commercial fishing fleets has leveled off and declined as a result of overfishing (Figure
4.11). Overfishing has been particularly acute in the North
Atlantic and Pacific oceans. Countries such as Iceland and
Peru, whose economies rely heavily on fishing, are sensitive to the overfishing problem. Peru’s catch of its principal fish, the anchovy, has declined by over 75% because of
overfishing. The Peruvian experience demonstrates that
Cultivating the Oceans
Fishing and the cultivation of fish and shellfish
(aquaculture) from the oceans is not a new idea. At first
glance, the world seems well supplied with fisheries
because oceans cover three-fourths of the earth.
However, fish provide a very small proportion—about
1%—of the world’s food supply.
World fish consumption has increased more rapidly
than the population, and even exceeded beef as a source
of animal protein in some countries. Today, the oceans are
140
120
Total Catch (millions of metric tons)
FIGURE 4.11 Global fish catch, 1950–2008. Rising
demand and increasingly efficient industrial fishing
methods have not only yielded dramatically higher
catches, but have increasingly depleted the world’s
oceans of many species. Pelagic fish comprise the world's
largest fishery and are found in the vast oceans of the
earth at all levels. See Richard Ellis, The Empty Ocean.
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Discarded
Invertebrates
Peruvian anchoveta
Pelagic fish
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1950 1955 1960 1965 1970 1975 1980 1985 1990 1995 2000 2005
Chapter 4 • Resources and Environment
the ocean is not a limitless fish resource, as did the quest for
whales a century earlier. Indeed, if current fish consumption
levels continue, the ocean’s ecosystems are likely to experience severe stress, or collapse, with dire consequences
not only for the world environment but for the human
food supply as well.
An alternative to commercial fishing fleets, which employ sophisticated techniques but catch only what nature
has provided, is fish farming. Mariculture is now expanding rapidly and accounts for 11% of the world’s fish caught
yearly. The cultivation of food fish such as catfish, trout,
and salmon is big business in the United States, Norway,
Japan, and other fishing countries.
High-Protein Cereals
Another source of future food production rests in higherprotein cereal crops. Agricultural scientists seek to develop
high-yield, high-protein cereal crops in the hope that development of hybrid seeds will be able to help the protein
deficiency of people in developing countries who do not
have available meats from which to gain their protein
needs, as do people in developed countries.
Fortification of present rice, wheat, barley, and other
cereals with minerals, vitamins, and protein-carrying
amino acids is an approach that also deserves attention.
This approach is based on the fortified food production in
developed countries and stands a greater chance of cultural
acceptance because individual food habits do not necessarily need to be altered. But developing countries rely on
unprocessed, unfortified foods for 95% of their food intake. Large-scale fortification and processing would require major technological innovation and scale economies
to produce enough food to have an impact on impoverished societies.
More Efficient Use of Foods
In many developing countries, foods that satisfy consumer
preferences as well as religious taboos and cultural values
are becoming limited. The selection of foods based on social customs should be supplemented with information
concerning more efficient use of foods presently available.
An effort should be made to increase the palatability of
existing foods that are plentiful.
Fish meal is a good example. Presently, one-third of
the world’s fish intake is turned into fodder for animals
and fertilizer. Fish meal is rich in omega-3 fatty acids and
amino acids necessary for biological development.
However, in many places, the fish meal is not used because of its taste and texture.
Another underused food resource is the soybean, a
legume rich in both protein and amino acids. Most of the
world’s soybeans wind up being processed into animal
feed or fertilizer and into nondigestible industrial materials. World demand for tofu and other recognizable soybean derivatives is not large. By contrast, hamburgers, hot
dogs, soft drinks, and cooking oils made partially from
soybeans are more acceptable.
107
A Solution to the World Food Supply Situation
As we have emphasized, there is a widely shared belief
that people are hungry because of insufficient food production. But the fact is that food production is increasing
faster than population, and still there are more hungry
people than ever before. Why should this be so? It could
be that the production focus is correct, but soaring numbers of people simply overrun these production gains. Or
it could be that the diagnosis is incorrect—scarcity is not
the cause of hunger, and production increase, no matter
how great, can never solve the problem.
The simple facts of world grain production make it
clear that the overpopulation/scarcity diagnosis is incorrect. Present world grain production can more than adequately feed every person on earth. Ironically, the focus
on increased production has compounded the problem of
hunger by transforming agricultural progress into a narrow
technical pursuit instead of the sweeping social task of releasing vast, untapped human resources. We need to look
to the policies of governments in developing countries to
understand why people are hungry even when there is
enough food to feed everyone. These policies influence
the access to knowledge and the availability of credit to
small farmers, the profitability of growing enough to sell a
surplus, and the efficiency of marketing and distributing
food on a broad scale.
The fact is that small, carefully farmed plots are
more productive per unit area than large estates because
the families that tend to them have more at stake and
invest as much labor as necessary to feed themselves
when they can. Yet, despite considerable evidence from
around the world, government production programs in
many developing countries ignore small farmers. They
rationalize that working with bigger production units is a
faster road to increased productivity. In the closing years
of the twentieth century, many agricultural researchers,
having gained respect for traditional farming systems,
agree with this conclusion.
NONRENEWABLE MINERAL RESOURCES
Although we can increase world food output, we cannot
increase the global supply of minerals. A mineral deposit,
once used, is gone forever. A mineral refers to a naturally occurring inorganic substance in the earth’s crust.
Thus, silicon is a mineral, whereas petroleum is not,
since the latter is organic in nature. Although minerals
abound in nature, many of them are insufficiently concentrated to be economically recoverable. Moreover, the
richest deposits are unevenly distributed and are being
depleted.
Except for iron, nonmetallic elements are consumed at
much greater rates than metallic ones. Industrial societies
do not worry about the supply of most nonmetallic minerals, which are plentiful and often widespread, including
nitrogen, phosphorus, potash, or sulfur for chemical fertilizer, or sand, gravel, or clay for building purposes. Those
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commodities the industrial and industrializing countries do
worry about are the metals.
Location and Projected Reserves
of Key Minerals
Only five countries—Australia, Canada, South Africa, the
United States, and Russia—are significant producers of at
least six strategic minerals vital to defense and modern
technology (Figure 4.12). Of the major mineral-producing
countries, only a few—notably the United States and
Russia—are also major processors and consumers. The
other major processing and consuming centers—Japan
and western European countries—are deficient in strategic
minerals.
How large is the world supply of strategic minerals?
Most key minerals will be exhausted within 100 years and
some will be depleted within a few years at current rates
of consumption, assuming no new reserves. The United
States is running short of domestic sources of strategic
minerals. Its dependence on imports has grown steadily
since 1950; prior to that year, the country was dependent
on imports for only four designated strategic minerals.
When measured in terms of percentage imported, U.S. dependency increased from 50% in 1960 to over 82% in 2008.
Minerals projected to be future needs by the United States
are unevenly distributed around the world. Many of them,
such as manganese, nickel, bauxite, copper, and tin (see
Figure 4.12), are concentrated in Russia and Canada and in
developing countries. Whether these critical substances
will be available for U.S. consumption may depend less on
economic scarcity and more on international tensions and
foreign policy objectives.
80°
Solutions to the Mineral Supply Problem
Affluent countries are unlikely to be easily defeated by
mineral supply problems. Human beings, the ultimate resource, have developed solutions to the problem in the
past. Will they in the future? Although past experience is
never a reliable guide to the future, there is no need to be
unduly pessimistic about the exhaustion of minerals as
long as we develop alternatives.
If abundant supplies of cheap electricity ever became
available, it might become possible to extract and process
minerals from unorthodox sources such as the ocean. The
oceans, which cover 71% of the earth, contain large quantities of dissolved minerals. Salt, magnesium, sulfur, calcium, and potassium are the most abundant of these minerals and amount to over 99% of the dissolved minerals.
More valuable marine minerals also include copper, zinc,
tin, and silver. Some minerals such as bromine and magnesium are being obtained electrolytically from the oceans at
the present time. Finally, improved efficiency of production has reduced the demand for various minerals per unit
of output (Figure 4.13).
Much more feasible than mining the oceans is devoting increased attention to improving mining technology,
especially to reducing waste in the extraction and processing of minerals. Equally feasible is to utilize technologies
that allow minerals to be used more efficiently in manufacturing. Also, if social attitudes were to change, encouraging lower per capita levels of resource use, more durable
products could be manufactured, saving not only large
amounts of energy but large quantities of minerals too.
Reusing minerals is still another option for our mineral problems. Every year in the United States and other
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FIGURE 4.12 Major producers of strategic minerals.
Chapter 4 • Resources and Environment
FIGURE 4.13 The
consumption of lead, tin,
copper, and iron ore per
unit of GDP for the United
States, 1930–2005.
Transmaterialization is the
process whereby natural
materials from the
environment are
systematically replaced by
higher-quality or
technologically more
advanced materials linked
to new industries—glass
fibers, composites,
ceramics, epoxies, and
smart metals.
Copper
Iron Ore
Tin
Consumption per unit of GDP
(scales vary)
Lead
1930
1940
1950
109
1960
1970
1980
1990
2000 2005
Year
affluent countries, huge quantities of household and industrial waste are disposed of at sanitary landfills and
open dumps. These materials are sometimes called
“urban ores” because they can be recovered and used
again. For years, developed countries have been recycling scarce and valuable metals such as iron, lead, copper, silver, gold, and platinum, but large amounts of
scrap metals are still being wasted. Although we could
recover a much greater proportion of scrap, this is unlikely when prices are low or when virgin materials are
cheaper than recycled ones.
Environmental Impacts of Mineral Extraction
Mineral extraction has a varied impact on the environment, depending on mining procedures, local hydrological
conditions, and the size of the operation. Environmental
impact also depends on the stage of development of the
mineral—exploration activities usually have less of an impact than mining and processing mineral resources.
Minimizing the environmental impacts of mineral extraction is in everyone’s best interest, but the task is difficult because demand for minerals continues to grow and
ever-poorer grades of ore are mined. For example, in 1900
the average grade of copper ore mined was 4% copper; by
2000, ores containing as little as 0.4% copper were mined.
Each year more and more rock has to be excavated,
crushed, and processed to extract copper. The immense
copper mining pits in Montana, Utah, and Arizona are no
longer in use because foreign sources, mostly in the developing countries, are less expensive. As long as the demand for minerals increases, ever-lower quality minerals
will have to be used and, even with good engineering,
environmental degradation will extend far beyond excavation and surface plant areas.
ENERGY
The development of energy sources is crucial for economic development. Today, commercial energy is the lifeblood
of modern economies. Indeed, it is the single biggest item
in international trade. Oil alone accounts for about onequarter of the volume (but not value) of world trade. The
U.S. economy consumes vast amounts of energy, overwhelmingly consisting of fossil fuels (Figure 4.14). With
roughly 5% of the world’s people, the United States consumes 25% of its fossil fuels. These form the inputs that,
along with labor and capital, run the economic machine
that feeds, houses, and moves the population. As Figure
4.15 indicates, the primary uses of petroleum are transportation and industrial purposes, whereas the major uses
of coal are for electrical power generation.
Until the energy shocks of the 1970s, commercial energy
demands were widely thought to be unproblematic, that is,
always there to generate rising affluence. Suddenly, higher
prices brought energy demands in the industrial countries to
a virtual standstill, generating inflation, unemployment, and
accelerating deindustrialization (Figure 4.16). Thousands of
factories were shut down, and more than 3 million workers
were laid off. They learned firsthand that when energy fails,
everything fails in an urban-industrial economy. During the
1980s and 1990s, oil prices decreased from $30 per barrel in
1981 to $14 per barrel in 1999. OPEC (Organization of the
Petroleum Exporting Countries), once considered an invincible cartel, saw its share of world oil output drop steadily
as non-OPEC countries expanded production. Oil-consuming
countries, including developing countries strapped by
heavy energy debts, were relieved to see prices falling. Oilexporting developing countries, such as Mexico, Venezuela,
and Nigeria, which came to depend on oil revenues for an
important source of income, were hurt the worst. By 2008,
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The World Economy: Geography, Business, Development
110
Quadrillion Btu (British thermal units)
100
Hydropower, geothermal, and other
Hydropower, geothermal, and other
Nuclear Power
90
Nuclear Power
Petroleum
80
Natural Gas
Coal
70
Wood
60
Petroleum
50
40
30
Natural gas
20
10
Coal
Wood
1860
1870
1880
1890
1900
1910
1920
1930
1940
1950
1960
1970
1980
1990
2000
Year
FIGURE 4.14 U.S. energy consumption, 1850–2008. The U.S. economy contains 5% of the world’s people but uses one-third of its
energy. The three principal sources of fossil fuels are coal, natural gas, and petroleum. After World War II, petroleum and natural gas
surpassed coal as the chief source of energy in the United States. Hydro and nuclear have also increased recently.
ENERGY SOURCES AND END USES
Primary energy
sources (percent
of total)
End use
consumption
(percent of total)
Work achieved
Waste
Total 100%
(110.0 quadrillion
BTUs per year)
Oil
(refined
petroleum
products)
Transportation
27.1
40.2
Industrial
24.2
Natural gas
24.8
Coal
23.3
Nuclear power
7.7
Water power
Wood and
other 2.8
3.7
Residential
Commercial (space and
hot water heating,
lighting, motors) 12.4
Electric power
generation 36.3
Energy conversion
FIGURE 4.15 U.S. energy sources and end uses. Different energy inputs are applied to different uses. While coal is still widely
used for electrical generation, petroleum is the most common energy source for transportation and industrial production.
Chapter 4 • Resources and Environment
8
Consumption
Production
7
Imports
Millions of barrels
6
5
4
3
2
1
however, world oil prices had risen to $140 per barrel, only
to fall again in 2009 and 2010 as the world’s financial crisis
and recession reduced global demand. Such oscillations
point to the cyclical nature of the petroleum industry, which
has huge impacts on other sectors of the world’s economy.
Energy Production and Consumption
Most commercial energy produced is from nonrenewable
resources. Most renewable energy sources, particularly
wood and charcoal, are used directly by producers, mainly
poor people in the developing countries. Although there is
increasing interest in renewable energy development, commercial energy is the core of energy use at the present time.
Only a handful of countries produce much more commercial energy than they consume. If we take petroleum consumption and production as an example, the main energy
surplus countries include: Saudi Arabia, Iraq, Mexico, Iran,
Venezuela, Indonesia, Algeria, Kuwait, Libya, Qatar, Nigeria,
and the United Arab Emirates. Saudi Arabia is by far the
largest exporter of petroleum and has the largest proven reserves. Nearly one-half of all African countries are energy
paupers. Several of the world’s leading industrial powers—
most notably Japan, many western European countries, and
the United States—consume much more energy than they
produce, making them heavily reliant on imported oil,
largely from the Middle East. This fact profoundly shapes
the foreign policies of countries such as the United States.
The United States leads the world in total energy use,
but leaders in per capita terms also include Canada, Norway,
Sweden, Japan, Australia, and New Zealand (Figure 4.17).
With 5% of the world’s population, the United States consumes roughly one-quarter of the world’s energy, largely for
transportation, which consumes 40% of American energy inputs. The automobile, for all the convenience it offers, is a
highly energy-inefficient way to move people. In contrast,
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111
FIGURE 4.16 Oil production, consumption, and imports in the United States,
1950–2008. In the late 1970s and early
1980s, high prices created increased production and lower consumption; also, the
Alaskan oil fields came into production.
From 1980 onward, oil prices declined
sharply due to the decline in OPEC’s
oligopolistic power. Imports comprise
over one-half of all oil consumed in the
United States. By 2010, total petroleum
consumption had reached 19.5 million
barrels per day (mbpd) in America, with
57% of its crude oil being imported. The
top oil-importing country was Canada,
importing 2.5 mbpd to the United States.
Yet, the combined OPEC countries imported
over 6 mbpd into the United States. Texas
was the leading oil-producing state in the
United States, with Prudhoe Bay, Alaska,
the top oil field. Saudi Arabia is the
leading oil-producing country in the world,
with 11 mbpd, while the United States is
the leading oil consumption country.
developing countries consume about 30% of the world’s
energy but contain about 80% of the population. Thus there
exists a striking relationship between per capita energy consumption and level of development. Most developing countries consume meager portions of energy, well below levels
required with even moderate levels of economic development. Commercial energy consumption in developed
countries has been at consistently high levels, whereas in
developing countries it has been at low but increasing levels.
Oil Dependency
Much of the world was seriously affected by the 1973 and
1979 Arab oil embargoes. Imported oil to the United States
as a proportion of total demand increased from 11% in the
late 1960s to 50% in the 1970s to about 58% today. As a result, numerous presidential administrations of the United
States have repeatedly called for a national policy of oil
self-sufficiency to reduce U.S. dependency on foreign supplies of petroleum—without much success. Under heavy
political pressure from corporations and campaign donors,
air and water pollution regulations have been relaxed, and
tax credits for home energy conservation expenditures
were ended. The U.S. Congress toyed at times with imposing stricter fuel standards on new cars, but relaxed these
under pressure from automobile producers; indeed,
American fuel standards are considerably below those in
Europe, Japan, and China. These conflicting policies
worked against federal efforts to encourage American
households and companies to conserve fossil fuels. The
United States imports about 58% of the oil it consumes, but
only a small proportion comes from the Middle East.
Japan, Italy, and France are comparatively much more dependent on Persian Gulf oil.
Nonetheless, U.S. industry did become more energyefficient. Manufacturing reduced its share of total U.S.
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10°
10°
ENERGY CONSUMPTION, 2007
(MILLION BTU PER CAPITA)
20°
140°
90°
OCEAN
10°
120°
20°
20°
30°
30°
40°
40°
50°
50°
150°
20°
150°
160°
170°
CORAL SEA
20°
20°
300 and above
30°
100–299
10–99
40°
40°
40°
Below 10
50°
No data
30°
30°
30°
110° 120° 130° 140° 150° 160°
50°
0
0
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.17 World per capita energy consumption. The
United States, Canada, and the Scandinavian countries
consume more energy per capita than any other
countries. When the electricity usage of the United
States, Canada, Europe, and Russia is combined, 75% of
electricity usage in the world is accounted for, but only
20% of the people.
ENERGY
CONSUMPTION
Sub-Saharan Africa 2
Southwest Asia
Brazil 2
Central Asia
Other Latin America
South Korea 2
6 Other
Asia
3
5
India
6
More
developed
4
(percentage of
484 quad BTUs)
Less
developed
United States
21
China
16
3
5
Oceania 2
Japan
6
Other
Europe
10
Russia
energy consumption from 40% to 36%, and the burgeoning
service economy consumed relatively little energy. In
terms of conservation efforts, however, the United States
lags behind Japan and Europe, where energy is more expensive. Gasoline taxes in Europe, for example, help to
fund more energy-efficient public transportation.
Production of Fossil Fuels
As an accident of geology, the world’s fossil fuels are highly unevenly distributed around the globe. Two-thirds of
the world’s oil resources are located in the Middle East
(Figures 4.18 and 4.19). Other large reserves are found in
northern Africa, Latin America—primarily Mexico and
Venezuela—and in Russia and Nigeria (Figure 4.20).
Offshore drilling, such as in the North Sea (Figure 4.21),
forms another supply. Natural gas, often a substitute for
oil, is also unevenly distributed, with nearly 40% in Russia
and central Asia and 34% in the Middle East.
The unevenness of the world’s supply and demand for
petroleum creates a distinct pattern of trade flows of petro-
Canada
Germany
France 2
U.K. 2
Italy 2
3
leum (Figure 4.22), the most heavily traded commodity (by
volume) in the world. Primarily, these flows represent exports from the vast reserves of the Middle East to Europe,
East Asia, and North America, although the United States
also imports considerable quantities from South America
and Nigeria. The differences between crude oil production
and consumption for each major world region are
sketched in more detail in Figure 4.23.
Adequacy of Fossil Fuels
In the next few decades, energy consumption is expected
to rise significantly, especially because of the growing industrialization of developing countries. Most of the future
energy production to meet increasing demand will come
from fossil energy resources—oil, natural gas, and coal.
How long can fossil fuel reserves last, given our increasing
energy requirements? Estimates of energy reserves have increased substantially in the past 20 years, and therefore
there is little short-term concern over supplies; consequently,
energy prices are relatively low. If energy consumption
Chapter 4 • Resources and Environment
113
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
NORTH
AMERICA
5%
40°
30°
10°
50°
PACIFIC
OCEAN
40°
ATLANTIC
OCEAN
40°
OCEAN
30°
30°
AFRICA
7%
60°
70°
80°
INDIAN
10°
140°
90°
30°
30°
30°
40°
40°
50°
50°
150°
OCEAN
10°
120°
20°
50°
20°
BAY OF
BENGAL
10°
20°
PERCENT OF WORLD’S
PETROLEUM RESERVES
BY REGION
30°
ASIA AND OCEANIA
4%
ARABIAN
SEA
50°
20°
40°
MIDDLE
EAST
66%
10°
CENTRAL
AND
SOUTH AMERICA
9%
10°
50°
40°
0°
0°
EASTERN EUROPE
AND FORMER U.S.S.R.
5%
PACIFIC
20°
20°
160°
WESTERN
EUROPE
2%
150°
160°
170°
CORAL SEA
20°
20°
20°
30°
30°
30°
40°
40°
110° 120° 130° 140° 150° 160°
50°
0
0
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.18 World’s proven petroleum reserves, revealing the primacy of the Middle East.
were to remain more or less at current levels, which is unlikely, proved reserves would supply world petroleum
needs for 40 years, natural gas needs for 60 years, and coal
needs for at least 300 years. Although the size of the
world’s total fossil fuel resources is unknown, they are finite,
and production will eventually peak and then decline.
Oil: Black Gold
Most of the world’s petroleum reserves are heavily concentrated in a few countries, mostly in politically unstable
regions. Although reserves increased by 170% between
1978 and 2003, most of this increase is attributed to new
discoveries in the Middle East. Regionally, however, reserves have been declining in important consuming
countries. For example, reserves in Russia declined by 9%
between 1991 and 2004. They also declined by 9% in the
United States during the same period. Despite new discoveries, Europe’s reserves are likely to be depleted by 2050.
Moreover, exports of oil from Africa and Latin America will
probably cease by 2050. The Middle East will then be the
only major exporter of oil, but political turmoil (e.g., wars,
revolutions) there could cause interruptions in oil supplies, creating problems for the import-dependent regions
of North America, Western Europe, Japan, and the East
Asian Newly Industrializing Countries (NICs).
FIGURE 4.19 The Persian Gulf (or, to the Arabs, the Arab Gulf), lies
in the heart of the world's largest petroleum deposits, an immense
ocean of oil that fuels the global economy.
Natural Gas
The political volatility of the world’s oil supply has increased
the attractiveness of natural gas, the fossil fuel experiencing
the fastest growth in consumption. Natural gas production is
increasing rapidly, and so too are estimates of proven gas reserves. Estimates of global gas reserves have increased
114
The World Economy: Geography, Business, Development
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
10°
40°
OCEAN
30°
30°
30°
20°
20°
160°
40°
PACIFIC
OCEAN
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
50°
0°
0°
60°
70°
80°
INDIAN
10°
10°
20°
30°
CRUDE PETROLEUM
PRODUCTION, 2008
(QUAD BTU)
20 and above
140°
90°
OCEAN
10°
120°
20°
20°
30°
30°
40°
40°
50°
50°
150°
150°
160°
170°
CORAL SEA
20°
20°
20°
30°
30°
30°
1–19
40°
50°
0.01–0.99
Below 0.01
40°
40°
180°
110° 120° 130° 140° 150° 160°
50°
0
0
1,000
3,000 MILES
2,000
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.20 World crude petroleum production. Saudi Arabia is
the largest producer and has the largest proven reserves; the United
States is a major producer but with limited reserves.
Other Latin America 1
Nigeria 3
Other Africa 3
Other Asia 3
Venezuela
7
United States 2
Europe 2
Canada
13
Russia
5
Iran
10
2
3
UAE
7
Less
developed
during the past decade, primarily due to major finds in
Russia, particularly in Siberia, and large discoveries in China,
South Africa, and Australia. Reserves have also been increasing in Europe, Latin America, and North America. Gas production will eventually peak, probably in the first two or
three decades of the twenty-first century. As a result, gas
supplies will probably last a bit longer than oil supplies.
The distribution of natural gas differs from that of oil. It
is more abundant than oil in the former Soviet Union,
Western Europe, and North America, and less abundant
than oil in the Middle East, Latin America, and Africa. A
comparison of Figures 4.24 and 4.25 shows that natural gas
also differs in its pattern of production and consumption.
Because of the high cost of transporting natural gas by sea,
the pattern of production is similar to that of consumption.
Coal
Coal is the most abundant fossil fuel, and most of it is consumed in the country in which it is produced (Figure 4.26).
Use of this resource, however, has been hampered by inefficient management by the international coal industry,
Other
Central Asia
Saudi Arabia
20
Kuwait
8
More
developed
Kazakhstan
Iraq
9
Libya 3
World
petroleum
reserves
(percentage)
the inconvenience of storing and shipping, and the environmental consequences of large-scale coal burning.
China is the world’s largest consumer of coal, which is
a major reason why it is the world’s leading producer of
greenhouse gases, such as carbon dioxide, associated with
global climate change. The principal fossil fuel in North
America is coal (Figure 4.27). With the exception of Russia,
the United States has the largest proven coal reserves. Coal
constitutes 67% of the country’s fossil fuel resources, but
only a small fraction of its energy consumption. It could
provide some relief to the dependence on oil and natural
gas. However, the use of coal presents problems that the
use of oil and natural gas do not, making it less desirable
as an important fossil fuel. These problems are as follows:
1. Coal burning releases more pollution than other fossil fuels, especially sulfur. Low-grade bituminous coal
has large amounts of sulfur, which, when released
into the air from the burning of coal, combines with
moisture to form acid rain (Figure 4.28).
2. Coal is not as easily mined as oil or natural gas.
Underground mining is costly and dangerous, and
Chapter 4 • Resources and Environment
115
open-pit mining leaves scars difficult to rehabilitate
to environmental premining standards.
3. Coal is bulky and expensive to transport, and coal
slurry pipelines are less efficient than oil or natural
gas pipelines.
4. Coal is not a good fuel for mobile energy units such
as trains and automobiles. Although coal can be
adapted through gasification techniques to the automobile, it is an expensive conversion and it is not
well adapted to motor vehicles, overall.
ENERGY OPTIONS
The age of cheap fossil fuels will eventually come to an
end. As societies prepare for that eventuality, they must
conserve energy and find alternatives to fossil fuels, especially alternatives that do not destroy the environment.
How viable are the options?
Conservation
One way to reduce the gap between domestic production
and consumption in the short run is for consumers to restrict
consumption. Energy conservation stretches finite fuel resources and reduces environmental stress. Conservation can
substitute for expensive, less environmentally desirable
supply options and help to buy time for the development
of other, more acceptable sources of energy.
Many people believe that energy conservation means
a slow-growth economy; however, energy growth and
FIGURE 4.21 A Shell/Esso production platform in Britain’s North
Sea gas field. British oil exploration was stimulated by a dramatic
increase in the price of oil in the 1970s and early 1980s. Britain’s
North Sea oil and gas investment may keep the country selfsufficient for the foreseeable future. However, the huge 2009
British Petroleum oil platform blowout and oil spill in the Gulf of
Mexico has raised safety issues for offshore oil drilling.
EUROPE
13,657
1,809
EURASIA
98,886
4,708
NORTH
AMERICA
209,910
5,640
AFRICA
117,064
3,898
PETROLEUM
(millions of barrels)
Proven Reserves
Production
WORLD TRADE
Approximately
130 million barrels
CENTRAL
AND SOUTH
AMERICA
122,686
2,727
MIDDLE EAST
745,997
8,905
ASIA,
AUSTRALIA,
AND OCEANIA
34,006
3,105
OPEC nations
Non-Opec nations
FIGURE 4.22 World trade patterns in petroleum. The major flows are from the Middle East to Europe, East Asia, and the United
States, which also imports from Latin America and Nigeria.
116
The World Economy: Geography, Business, Development
FIGURE 4.23 The production and
consumption of crude oil by major
world regions, 2008. The developed
market economies of Europe, North
America, and Asia, especially Japan,
consume a far greater proportion of
energy resources than they produce.
Conversely, the Middle East, especially
the Persian Gulf region, produces the
most crude oil of any world region
but consumes only one-sixth of its
production. Latin America, Africa, and
the former Soviet Union consume less
crude oil than they produce.
North America
South and
Central America
Europe
Russia and the
Former Soviet
Republics
Middle East
Africa
Asia Pacific
0
10,000
15,000
Thousand Barrels per Day
5,000
Production
20,000
25,000
Consumption
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
10°
40°
OCEAN
30°
30°
30°
20°
20°
160°
40°
PACIFIC
OCEAN
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
50°
0°
0°
60°
70°
80°
INDIAN
10°
10°
20°
30°
140°
90°
OCEAN
10°
120°
NATURAL GAS PRODUCTION,
2008 (QUAD BTU)
100 and above
20°
20°
30°
30°
40°
40°
50°
50°
150°
150°
160°
170°
CORAL SEA
20°
20°
20°
30°
30°
30°
10–99
40°
50°
1–9
Below 1
40°
40°
110° 120° 130° 140° 150° 160°
50°
0
0
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.24 Production and consumption of
natural gas by major world regions.
WORLD NATURAL GAS RESERVES
(percentage)
Europe 3
Venezuela
Other Latin
America 2
Nigeria
4
5
3
5
3
Other Asia
7
4
3
Qatar
14
Iran
16
More
developed
Less
developed
Other Southwest Asia
Russia
27
United States
UAE 3
Other Central Asia
Saudi Arabia
Algeria
Iraq 2
Chapter 4 • Resources and Environment
117
EUROPE
4.79 tcm
NORTH
AMERICA
8.74 tcm
EURASIA
56.46 tcm
AFRICA
13.99 tcm
NATURAL GAS
8.74 tcm Proven reserves
(in trillion cubic meters)
CENTRAL
AND SOUTH
AMERICA
7.55 tcm
MIDDLE
EAST
73.39 tcm
14.21
tcm
ASIA,
AUSTRALIA,
AND OCEANIA
12.18 tcm
WORLD TRADE
10 billion cubic meters gas
2.5 billion cubic meters LNG
FIGURE 4.25 World trade patterns in natural gas. Russia is the world’s largest exporter, primarily to Europe. Japan receives most of its
gas from Southeast Asia, whereas the United States imports most from Canada.
economic growth are not inextricably linked. It is possible
to enjoy economic progress while simultaneously consuming less energy per unit of output. In the United States,
from the early 1870s to the late 1940s, gross national product (GNP) per capita increased sixfold, whereas energy
use per capita only slightly more than doubled. Energy efficiency, the ratio of useful energy output to total energy
input, increased steadily throughout the twentieth century,
partly as a result of industries installing better equipment.
Nuclear Energy
The form of nuclear energy currently in use commercially—nuclear fission—involves splitting large uranium
atoms to release the energy within them. But nuclear fission causes many frightening problems, which became
alarmingly clear after the nuclear accidents at the Three
Mile Island plant in Pennsylvania in 1979 and at Chernobyl
in Ukraine in 1986. Concerns over nuclear energy range
from environmental concerns caused by radiation to problems of radioactive waste disposal. Early radioactive
wastes were dumped in the ocean in drums that soon
began leaking. Likewise, many sites throughout the United
States have contaminated groundwater supplies and leak
radioactive wastes. One hotly discussed strategy currently
underway is to store much of the nation’s nuclear waste at
Yucca Mountain, Nevada, miles away from major towns
and cities. Another problem associated with the use of nuclear energy is the danger of terrorists stealing small
amounts of nuclear fuel to construct weapons, which, if
detonated, would wreak world havoc. Yet another is its
high costs: Each plant costs billions of dollars to build and
needs elaborate engineering and backup systems, as well
as precautionary safety measures.
Nuclear power is less widely used in North America
than in some western European countries and Japan
(Figure 4.29). In France, one-half of energy comes from
nuclear power; in Japan, 25%; Belgium, France, Hungary,
and Sweden produce more than one-half of their energy
from nuclear power plants, while Finland, Germany, Spain,
Switzerland, South Korea, and Taiwan are also major producers and users. In the United States and Canada, countries that are less dependent on nuclear energy, the eastern
portions rely on nuclear power plants more than do the
western portions. For example, New England draws most
of its electricity from nuclear power plants. Interestingly,
some countries have decided to throw in the towel on
nuclear power generation because of high risks and high
costs (Figure 4.30). For example, Sweden began phasing
out its nuclear plants in 1995, a process completed in 2010.
Nuclear fusion, the combining of smaller atoms to release their energy (the process that fuels the sun), has the
potential to be a solution to the environmental concerns of
nuclear fission because it does not release radioactive
waste. The raw material for nuclear fusion is the common
element hydrogen. Fusion is the process that powers the
sun and can be made to occur artificially, but is not yet
commercially viable. If this technology is ever commercially
successful, nuclear fusion would provide limitless amounts
of very cheap energy and pose no radiation dangers.
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
CANADA
75,074
60°
50°
50°
UNITED STATES
1,171,483
40°
30°
20°
PACIFIC
OCEAN
160°
10°
RUSSIA
356,185
60°
50°
50°
PACIFIC
40°
ATLANTIC
OCEAN
MEXICO
12,652
30°
40°
TURKEY
83,506
30°
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
50°
0°
0°
60°
70°
80°
INDIAN
10°
COAL PRODUCTION, 2008
(THOUSAND SHORT TONS)
140°
90°
OCEAN
120°
20°
20°
30°
30°
40°
40°
50°
50°
50,000–100,000
10,000–50,000
20°
20°
SOUTH
AFRICA
259,597
150°
160°
170°
CORAL SEA
20°
AUSTRALIA
438,506
30°
30°
30°
40°
40°
180°
110° 120° 130° 140° 150° 160°
1,000–10,000
150°
10°
1 million and above
100,000–1 million
OCEAN
30°
20°
COLOMBIA
86,655
40°
CHINA
2,847,983
50°
0
Below 1,000
0
1,000
3,000 MILES
2,000
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.26 Coal production. The United States, China, and Russia
lead the world in major coal deposits. Australia, Canada, and
Europe also have large quantities.
Other Asia
3
World coal
reserves
(percentage)
Australia
9
United States
28
China
14
India
7
4
Ukraine
6
Latin
America 2
Kazakhstan
Russia
19
4
Other Europe
6
More developed
South Africa
Less developed
50
°
CANADA
PACIFIC
OCEAN
40
40
°
MESABI
RANGE
°
ATLANTIC
OCEAN
130°
Major iron-producing
area
30°
C OA L F IE L D S
30
°
Bituminous
Lignite
0
200
400 MILES
Anthracite
Area of production
FIGURE 4.27 Major iron-producing areas and coal fields of North America.
118
0
200 400 KILOMETERS
Chapter 4 • Resources and Environment
119
Sulfuric acid (H2SO4)
Nitric acid (HNO3)
Water vapor
and cloud chemistry
Dry fallout
Sulfur dioxide and
nitrogen oxides
emissions
Acid snow
Acid rain
Dry fallout
Acid
snow melt
Acid fog
Water
condensation
Dieoff of aquatic life
Acid dew
Damage to
vegetation
Acid leaching
Aluminum toxicity
FIGURE 4.28 Acid rain creation. When sulfur is released into the atmosphere from the burning of coal and oil, it combines with
moisture to create acid rain.
Geothermal Power
The development of geothermal power holds promise for
the future in several countries that have hot springs, geysers, and other underground supplies of hot water that can
easily be tapped. The occurrence of this renewable
resource is highly localized, however. New Zealand obtains about 10% of its electricity from this source, and
smaller quantities are utilized by other countries such as
Italy, Japan, Iceland, and the United States. If the interior
of the earth’s molten magma is sufficiently close to the surface (i.e., 10,000 feet), underground water may be sufficiently warm to produce steam that can be tapped by
drilling geothermal wells. Geothermal energy is most
producible in giant cracks or rifts in the earth’s tectonic
plate structure that occur in earthquake or active volcanic
areas around the Pacific Rim. Wyoming and California are
noted examples.
Hydropower
Another source of electric power, and one that is virtually
inexhaustible, is hydropower—energy from rivers.
Developed countries have exploited about 50% of their
usable opportunities, Russia and Eastern Europe about
20%, and developing countries about 7%. In developed
countries, further exploitation of hydropower is limited
mainly by environmental and social concerns. In developing countries, a lack of investment funds and sufficiently
well-developed markets for the power are the main
obstacles.
One of the main problems of constructing dams for
hydropower is the disruption to the natural order of a watercourse. Behind the dam, water floods a large area, creating a reservoir; below the dam, the river may be reduced
to a trickle. Both behind and below the dam, the countryside is transformed, plant and animal habitats are destroyed, farms are ruined, and people are displaced.
Moreover, the creation of reservoirs increases the rate of
evaporation and the salinity of the remaining water. In
tropical areas, reservoirs harbor parasitic diseases, such as
schistosomiasis. For example, since the construction of the
Aswan High Dam in the 1970s, schistosomiasis has become endemic in lower Egypt, infecting up to one-half of
the population. An additional problem is the silting of
reservoirs, reducing their potential to produce electricity.
The silt, trapped in reservoirs, cannot proceed downstream and enrich agricultural land. The decrease in agricultural productivity from irrigated fields downstream from
the Aswan High Dam has been substantial. China is completing the Three Gorges Dam on the Yangtze River, which
will be the largest hydroelectric dam on the planet and
may well experience similar problems.
The long-term hydrological, ecological, and human
costs of dams easily transform into political problems on international rivers. An example is Turkey’s Southeast Anatolia
Project, which envisages the construction of 22 dams and
120
The World Economy: Geography, Business, Development
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
10°
40°
OCEAN
30°
30°
30°
20°
20°
160°
40°
PACIFIC
OCEAN
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
50°
0°
0°
60°
70°
80°
INDIAN
10°
ELECTRICITY FROM
NUCLEAR POWER
(PERCENT, 2008 )
40 and above
140°
90°
OCEAN
10°
120°
20°
20°
30°
30°
40°
40°
50°
50°
150°
20°
30°
150°
160°
170°
CORAL SEA
20°
20°
30°
30°
10 – 39
1–10
No nuclear power
40°
40°
110° 120° 130° 140° 150° 160°
50°
0
0
1,000
2,000
180°
3,000 MILES
1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 4.29 Nuclear power as a percentage of total energy use. The most important areas of nuclear energy production in
the world include Western Europe and Japan. These are areas that have a relatively small amount of fossil fuels to satisfy
local demand for energy. In Europe, for example, France, Germany, Sweden, and Finland produce more than 50% of their
electrical energy from nuclear sources. Nuclear power is much less prevalent in the developing nations of the world because
of extremely high start-up costs and the need for expensive uranium fuels.
19 hydroelectric power plants. Because the project is
being developed on two transboundary rivers—the Tigris
and Euphrates—problems and disputes have arisen with
two downstream users—Syria and Iraq—whose interests
are affected by the project.
FIGURE 4.30 The large, hyperbolic
cooling tower and reactor containment
dome of the Trojan nuclear power
plant in Rainier, Oregon. Safety issues
surrounding the use of nuclear energy
are fraught with turmoil. Most
industrialized countries expanded their
nuclear energy production during the
past 20 years, with France and Japan in
the lead. Expansion of nuclear capacity
had slowed by 1998 because of cost
concerns and the chilling effects of
the accidents at Three Mile Island in
Pennsylvania and at Chernobyl in
Ukraine. New energy sources, such as
geothermal, solar, biomass, and wind
energy, have increased and now
provide up to 5% of total primary
energy requirements in Australia,
Austria, Canada, Denmark, Sweden,
and Switzerland.
Solar Energy
Like river power, solar energy is inexhaustible. During
the petrocrises of the 1970s, solar energy caught the public
imagination, including a few solar-powered homes and
buildings. Large-scale utilization of solar energy still poses
Chapter 4 • Resources and Environment
121
Case Study
Resources: Wind Energy
The wind is a natural energy resource that has been
used by humans on a modest scale for hundreds of
years. Recently, however, concerns over climate change
and diminishing reserves of fossil fuels have increased
interest in wind as a major contributor to future energy
needs. This renewed interest has not been without controversy, and major obstacles remain to realizing the full
potential of wind as a modern energy resource, one of
them being the significant modifications to our energy
infrastructure that would be required.
Although in the past wind energy was used to propel sailing ships, pump water, and grind grain, it is currently used almost exclusively to generate electric
power. Turbines used to generate electricity come in
many shapes and sizes. The most common modern design uses three vertically oriented blades to drive a shaft
oriented in the horizontal direction, usually termed a
three-blade, horizontal-axis turbine. Other designs exist
(e.g., different types of vertical-axis turbines) but are
comparatively rare. Modern wind turbines are typically
rated by how much electric power they can generate,
from several hundred watts to several megawatts. One
MW of electricity-generating capacity can serve 200 to
300 average homes. The country with the largest installation and rated capacity of wind turbines, or “wind
farms,” today is Germany, with the United States and
Spain a distant second and third.
The theoretical potential of wind energy is one
reason that it is seen as an attractive energy resource.
The amount of energy contained in earth’s winds is
enormous in terms of human needs. Some estimates indicate that, in theory, there is enough wind energy potential in the United States to serve all of the country’s
current energy consumption, not just electricity usage.
Areas of high wind energy potential are widespread
throughout the world, although areas of high potential
technical difficulties, however, particularly that of low concentration of the energy. So far, technology has been able to
convert only slightly more than 30% of solar energy into
electricity; however, depending on the success of ongoing
research programs, it could provide substantial power
needs in the future. Solar energy’s positive aspects are that it
does not have the same risks as nuclear energy, nor is it difficult, like coal, to transport, and it is free of pollution. It is
almost ubiquitous but varies by latitude and by season. In
the United States, solar energy and incoming solar radiation
are highest in the Southwest and lowest in the Northeast.
Passive solar energy is trapped rather than generated.
It is captured by large glass plates on a building. The greenhouse effect is produced by short-wave radiation from the
sun. Once the rays penetrate the glass, they are converted
are frequently concentrated in certain regions, such as
the Great Plains in the United States. Complementing its
widespread availability and potential, wind energy is attractive because it is a renewable resource and because
it does not produce any of the harmful emissions associated with fossil fuel electricity generation, including
the carbon dioxide associated with climate change. A
more recently realized benefit is that the cost of windgenerated electricity is generally lower than that of
other renewable alternatives. In fact, wind even compares well to some types of fossil fuel electricity generation, particularly natural gas.
A chief drawback to using wind to generate electricity is that it is an uncontrollable, intermittent resource. Electricity cannot be effectively stored for long,
and supply must balance demand at all times in order to
keep the electric grid functioning. In some cases, wind
power may not be available when it is needed, which
requires expensive back-up generation infrastructure.
Compounding this problem, electricity demand is typically highest on hot summer afternoons, a condition that
often does not coincide with peaks in wind electricity
generation. A further disadvantage of wind power is that
wind farms must be sited in areas with good wind resources in order to be effective. Unfortunately, more
often than not such areas are long distances away from
population centers where the electricity is needed, making the development of electricity transmission infrastructure to transport wind power a lengthy and expensive
undertaking. One final drawback is that utility-scale wind
turbines are large, highly visible, and intrusive. Some
people consider them ugly and argue that they destroy
treasured landscapes. Others believe that they pose a
threat to wildlife, particularly birds and bats. Both of these
issues are often hotly debated in areas where wind farms
are proposed.
to long-wave radiation and are trapped within the glass
panel, thus heating the interior of the structure or a water
storage tank. The other way of harnessing solar energy is
through photovoltaic cells made from silicon. A bank of
cells can be wired together and mounted on the roof with
mechanical devices that maximize the direct rays of the sun
by moving at an angle proportional to the light received.
Another type of active solar energy system is a wood or
aluminum box filled with copper pipes and covered with a
glass plate, which collects solar radiation and converts it
into hot water for homes and swimming pools.
Cost is the main problem with solar energy. High costs
are associated with the capturing of energy in cloudy areas
and high latitudes. But unlike fossil fuels, solar energy is
difficult to store for long periods without large banks of
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The World Economy: Geography, Business, Development
cells or batteries. Currently, solar energy production is often
more expensive than other sources of fuel. To promote the
development of innovative energy supplies when the Arab
oil embargo hit in the 1970s, the U.S. government offered
tax incentives, including tax deductions for solar units
mounted on housetops. Although this tax deduction offset
the high costs of installing solar energy systems, maintenance and reliability soon became a problem. Families that
moved lost their investment, because most systems installed are rarely recoverable in the sale price of homes.
Wind Power
The power of the wind provides an energy hope for a few
areas of the world where there are constant surface winds
of 15 mph or more. The greatest majority of wind farms in
the United States are in California. However, wind machines
are an expensive investment, and the initial cost plus the
unsightliness of the wind machine has ended most wind
farm projects. Wind farm potential in California has never
matched expectations, and investment in wind farming
declined; however, it is currently experiencing a revival.
Biomass
Still another form of renewable energy is biomass—wood
and organic wastes. Today, biomass accounts for about
14% of global energy use. In Nepal, Ethiopia, and
Tanzania, more than 90% of total energy comes from biomass. The use of wood for cooking—the largest use of
biomass fuel—presents enormous environmental and social problems because it is being consumed faster than it is
being replenished. Fuelwood scarcities—the poor world’s
energy crisis—affect 1.5 billion people and could affect
3 billion in the future unless corrective actions are taken.
With good management practices, biomass is a resource that can be produced renewably. It can be converted to alcohol and efficient, clean-burning fuel for cooking
and transportation. Its production and conversion are
labor-intensive, an attractive feature for developing countries that face underemployment and unemployment problems. But the low efficiency of photosynthesis requires
huge land areas for energy crops if significant quantities of
biomass fuels are to be produced.
ENVIRONMENTAL DEGRADATION
On some days in Los Angeles, pollution levels reached
what is called locally a level-three alert, although conditions there have improved recently. People are advised to
stay indoors, cars are ordered off the highways, and strenuous exercise is discouraged. In Times Beach, Missouri,
which is some 50 miles south of St. Louis, dioxin levels
from a contaminated plant became so high that the
Environmental Protection Agency required the town to be
closed and the residents to be relocated. Around Rocky
Flats, nuclear wastes of plutonium have degraded the soil
so that radioactivity levels are five times higher than normal. In New England, acid rain has become so bad that it
has killed vegetation and fish in rivers and lakes.
Environmental problems, caused mainly by economic
activity, may be divided into three overlapping categories:
(1) pollution, (2) wildlife and habitat preservation, and (3)
environmental equity.
Pollution
Pollution is a discharge of waste gases and chemicals into
the air, land, and water. Such discharge can reach levels
sufficient to create health hazards to plants, animals, and
humans as well as to reduce and degrade the environment.
The natural environment has the capacity to regenerate and
cleanse itself on a normal basis; however, when great
amounts of gases and solids are released into it from industrial economic activity, recycling and purification needs are
sometimes overwhelmed. From that point on, the quality of
the environment is reduced as pollutants create health hazards for humans, defoliate forests, inundate land surfaces,
reduce fisheries, and burden wildlife habitats.
Air Pollution
Air pollutants, the main sources of which are illustrated in
Figure 4.31, are normally carried high into the atmosphere,
but occasionally, and in some places more than others, a
temperature inversion prevents this from occurring.
Inversions are caps of warm air that prevent the escape of
pollutants to higher levels. Under these conditions, the inhabitants of a place are under an even greater risk. These
conditions promote the formation of smog that blocks out
sunshine; causes respiratory problems; stings the eyes; and
creates a haze over large, congested cities everywhere.
Air pollution gives rise to different concerns at different
scales. Air pollution at the local scale is a major concern in
cities because of the release of carbon monoxide, hydrocarbons, and particulates. Air pollution at the regional scale
is exemplified by the problem of acid precipitation in eastern North America and Eastern Europe (Figure 4.32).
At the global scale, air pollution may damage the atmosphere’s ozone layer and contribute to the threat of global
warming. The earth’s protective ozone layer is thought to
be threatened by pollutants called chlorofluorocarbons
(CFCs). When CFCs such as freon leak from appliances
like air conditioners and refrigerators, they are carried into
the stratosphere, where they contribute to ozone depletion. As a result of the 1987 Montreal Protocol, developed
countries stopped using CFCs by the year 2000 and developing countries must stop by 2010. Scientists hope that
this international agreement will effectively reduce ozone
depletion, and preliminary evidence points to some success, offering an example of effective global cooperation
to address an important environmental crisis.
Concern about global warming centers around the
burning of fossil fuels in ever greater quantities, which increases the amount of carbon dioxide in the air, which in
turn makes the atmosphere more opaque, reducing thermal emissions to outer space. Heat-trapping gases, such as
carbon dioxide, warm the atmosphere, enhancing a natural greenhouse effect (Figure 4.33). The vast majority of
Chapter 4 • Resources and Environment
PRIMARY POLLUTANTS
Particulates
SECONDARY POLLUTANTS
+ Light
Ozone, PANs
Hydrocarbons
Carbon monoxide
Nitrogen
oxides
123
Acids–
Sulfuric
Nitric
Sulfur dioxide
Refuse incinerators
industrial stacks
Motor vehicles
Coal-burning
power plants
FIGURE 4.31 The primary sources of major air pollutants. Industrial processes are the major sources of particulates; transportation
and fuel combustion cause the lion’s share of the other pollutants.
these are produced by industrialized economies. Since the
1890s, the average temperature of the earth’s surface has
increased by 2 degrees Fahrenheit. This increase in temperature may or may not be humanly induced, however.
There are divergent views on the issue. Nonetheless, even
if the observed global warming is consistent with natural
variability of the climate system, most scientists agree that
it is socially irresponsible to delay actions to slow down
the rate of anthropogenic greenhouse gas buildup. For example, continued warming would increase sea levels, disrupt ecosystems, and change land-use patterns. While agriculture in some temperate areas may benefit from global
warming, tropical and subtropical areas may suffer.
Water Pollution
Although there is more than enough fresh water to meet
the world’s needs now and in the foreseeable future, the
problem is that when we use water, we invariably contaminate it. Major wastewater sources that arise from
human activities include municipal, mining, and industrial
discharges, as well as urban, agricultural, and silvicultural
runoff. The use of water to carry away waste material is an
issue that has come into prominence because water is
being used more heavily than ever before. As populations
and standards of living rise, problems of water utilization
and management increase. These problems are most acute
in developing countries, where some 1 billion people
already find it difficult or impossible to obtain acceptable
drinking water. But water is also an issue in developed
countries. In the United States, for example, the major
water management problem through most of the twentieth
century focused on acquiring additional water supplies to
meet the needs of expanding populations and associated
economic activities. Recently, water management has focused on the physical limits of water resources, especially
in the West and Southwest, and on water quality. Passage
of the Clean Water Act in 1972 resulted in improvements in
water quality of streams that receive discharges from specific locations or point sources such as municipal wastetreatment plants and industrial facilities. Recent efforts to
improve water quality have also emphasized the reduction
of pollution from diffuse or nonpoint sources such as
agricultural and urban runoff and contaminated groundwater discharges. These sources of pollution are often
difficult to identify and costly to treat, and often meet with
resistance from entrenched agribusiness interests.
Wildlife and Habitat Preservation
The habitats of wildlife and plants, called renewable
natural resources, are in danger throughout the world.
These natural environments are critical reserves for many
species of plants and animals. Wildlife, forestlands, and
wetlands, including lakes, rivers and streams, and coastal
marshes, are subject to acid rain, toxic waste, pesticide
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The World Economy: Geography, Business, Development
0
100
200 MILES
0
0 100 200 KILOMETERS
100
200 MILES
0 100 200 KILOMETERS
0°
SOUTHWEST
ADIRONDACKS
20°
North
Sea
NEW
ENGLAND
EASTERN
UPPER
MIDWEST
40°
50°
MID-ATLANTIC
COAST
35°
ANNUAL SULFATE
DEPOSIT LEVELS
(Kilograms per hectare)
at
ic
ri
OCEAN
Ad
ATLANTIC
Se
a
30°
60 and above
40–59
30–39
NORTHERN
FLORIDA
HIGHLANDS
Gulf of Mexico
95°
90°
85°
20–29
25°
80°
10–19
Below 10
10°
20°
FIGURE 4.32 The areas worst afflicted by acid rain in North America occur downwind from the principal polluting regions of
the industrialized Midwest. Ohio, western Pennsylvania, and northern New York State are the areas most heavily impacted by
acid rain. Acid precipitation and snow deposits are also well documented in Europe, which is in a belt of prevailing wind
coming from the west, as is the United States. Sulfur, released into the atmosphere from the burning of coal, combines with
water vapor to produce sulfuric acid. Such acid creates substantial air pollution and etches away at limestone buildings,
monuments, and markers on the earth. Acid precipitation can also kill plant and animal life, especially aquatic life. Literally
thousands of lakes in Sweden and Norway no longer support the fish they once did due to serious acid precipitation.
discharge, and urban pollution. They are also endangered
by the encroachment of development and transportation
facilities worldwide. The demand for tropical hardwoods,
such as teak and mahogany, has already stimulated waves
of destruction in tropical rain forests. In the United States
alone, expanding economic activity has consumed forests
and wetlands, depleted topsoil, and polluted local ecosystems at a rapid rate. Many species of plants and animals
have been reduced, including the grizzly bear, American
bison, prairie dog, gray wolf, brown pelican, Florida panther, American alligator and crocodile, and a variety of waterfowl and tropical birds. All in all, the exponential increase of human beings has been closely associated with a
corresponding dramatic decline in the number of species
in the world (Figure 4.34), and future economic growth
may threaten yet another catastrophic round of loss of the
planet’s biodiversity.
The problem of wildlife and habitat preservation is
exacerbated by the need for economic gain and corporate profit. A variety of questions beset wildlife managers
and environmental farmers. Should farmers be permitted
to drain swamps in Louisiana to farm the land, thus destroying the habitat for alligators? Should forest fires
started by lightning be allowed to burn themselves out,
as has been the practice on western U.S. forests and
rangelands? The trade-offs between residential lands versus wetlands, wildlife migration versus forest management, highway safety versus habitat preservation, and
conservation versus real economic development and
growth of the U.S. economy are problematic issues. It is
difficult to select the best alternative, and policies may
reflect the power of entrenched economic interests as
much as the public welfare.
Regional Dimensions of
Environmental Problems
Because economic structures and change are not uniform
around the world, but exhibit great variation among the
world’s continents (as well as within them), and because
population growth, cultural patterns, standards of living,
and state policies regulating problems such as pollution
vary widely, the environmental problems unleashed by
capitalism and demographic change worldwide differ considerably. See the color insert for a spatial depiction of
these issues.
Chapter 4 • Resources and Environment
Atmosphere gets warmer
Greenhouse
gases
Pollutants add
to atmospheric
greenhouse
gases
Incoming
solar
radiation
Infrared is
radiated back,
and some is
trapped by
greenhouse
gases
125
FIGURE 4.33 The greenhouse effect. Incoming
solar radiation is absorbed by the earth and
converted to infrared radiation. Greenhouse
gases act as an insulator and trap the infrared
heat, raising the temperature of the lower
atmosphere. The overall effect is global
warming. Presently, the scientific consensus on
global warming is that it leads to climate change
and most of this change is induced by human
causes. The result has been an increase in global
average temperatures over the past several
decades. While some still debate whether climate
change is happening, and if it has been induced
by human causes, the scientific debate has largely
shifted to ways to reduce human impact and to
mitigate impacts that have already occurred. Of
most concern with these anthropogenic (human)
factors is the increase in carbon dioxide levels due
to emissions from the combustion of fossil fuels.
Aerosols and cement manufacture are additional
problems, as well as ozone depletion, deforestation,
and animal agriculture.
Solar radiation
is absorbed and
converted to
infrared radiation
100
10
Species
8
50
6
4
2
Humans
1000
1500
Year
2000
Species remaining (%)
World population (x 109)
In North America, the major environmental problems
include acid rain downwind from industrial source areas.
In addition, water pollution and withdrawal of groundwater are serious issues. Because the U.S. economy is so
huge and energy-intensive, the pollutants generated there
are major sources of global problems, such as the depletion of the ozone layer and global warming. Across the
face of North America, other issues such as wetlands
destruction, saltwater intrusion, and urban air quality are
serious predicaments.
0
FIGURE 4.34 An inverse relationship exists between human
population size and the survival of species worldwide. Uncertainty
about the extent of decreasing biodiversity is reflected in the width
of the species curve. Overall, the growth of the human species has
been a disaster for most others.
In Latin America, the primary environmental issue is deforestation, particularly in the Amazon River basin, where
farmers and logging companies are stripping away the forest cover of some of the world’s richest ecosystems. Further,
degradation of ground cover leads to mudslides that can be
lethal to thousands. Overgrazing and soil erosion are other
important consequences, and in many Latin American cities,
such as Mexico City, air quality is very poor.
In Europe, these issues range from pollution of the
Mediterranean Sea, whose coasts are populated by dense
clusters of cities, as well as acid rain in Germany and
Poland. Rising sea levels pose a threat to the Netherlands,
much of which lies below sea level and uses dikes to hold
the ocean back. Air and water pollution are constant problems requiring government intervention.
Environmental problems in Russia and its neighbors
are tangled up in decades of mismanagement by the Soviet
regime and an economy that collapsed in the 1990s. The
Chernobyl disaster in 1985 left parts of Ukraine polluted
with nuclear radiation. The extraction of water from the
Aral Sea has left it nearly dead. And air pollution and acid
rain take a toll on the region’s enormous forests.
The predominantly Muslim world of North Africa and
the Middle East has its own environmental problems. Soil
erosion and overgrazing have contributed to desertification, particularly in the Sahara. Egypt’s Aswan High Dam
has been a mixed blessing, reducing floods on the Nile but
also reducing the siltation that keeps farmlands fertile.
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The World Economy: Geography, Business, Development
Heavy use of river water contributes to soil salinization. All
this takes place in a region with one of the world’s highest
rates of population growth.
Sub-Saharan Africa’s environmental problems, framed
in the context of extreme poverty and rapid population
growth, include widespread deforestation in western
Africa. A continent in which islands of people were surrounded by oceans of wildlife has become one of islands
of wildlife surrounded by oceans of people. Overgrazing
and soil erosion threaten agricultural land as well as biodiversity, and the region is rocked by wars, drought, famines,
and diseases such as AIDS and malaria.
In South Asia, the Indian subcontinent, home to more
than 1.5 billion people, has seen widespread soil salinization and water and air pollution, which conspire to reduce the supply of agricultural land. Green Revolution
farming accentuates these issues. Deforestation in the
Himalaya Mountains has increased flooding downstream
in Bangladesh.
East Asia, home to 1.3 billion in China as well as hundreds of millions more in Korea and Japan, exhibits similar
problems as South Asia. The encroachment of farmland into
forests has reduced the habitats of many species. Trying to
stop periodic floods on the Yangtze River, the Chinese government recently finished the Three Gorges Dam, which has
modified the basin and ecosystems of Asia’s largest river.
Japan supports 124 million people in a country with little
arable land, and its dense cities exhibit severe air pollution
levels, although the rapid growth of Chinese cities has rendered the air quality in those cities considerably worse yet.
Southeast Asia, one of three major regions in the
world that sustain rain forests, has enjoyed rapid economic growth over the past two decades. Its environmental
problems have grown proportionately. Deforestation in
Indonesia, Malaysia, and Thailand has gone unchecked,
threatening rich tropical ecosystems. Logging, farming,
and international paper companies all contribute to this
trend. Water pollution and soil erosion are increasingly
widespread. Huge forest fires periodically carpet the
region with smoke, adding to the deteriorating air quality
of the region’s cities, some of which are huge.
ENVIRONMENTAL EQUITY AND
SUSTAINABLE DEVELOPMENT
Economic development policies and projects all too often
carry as many costs as benefits. Build a dam to bring hydroelectric power or irrigation water, and fertile river bottomlands are drowned, farmers are displaced, waterborne
diseases may fester in the still waters of the reservoir, and
the course of the river downstream to its delta or estuary is
altered forever. Dig a well to improve water supplies in
dry rangelands, and overgrazing and desertification spread
outward all around the points of permanent water. Mine
ore for wealth and jobs, and leave despoiled lands and air
and water pollution. Build new industries, shopping malls,
and housing tracts, and lose productive farmland or public
open space. Introduce a new miracle crop to increase food
production, and traditional crop varieties and farming
methods closely synchronized to local environments disappear. Is it possible to reckon the costs and benefits of
“progress”? Can we develop a humane society, one that
encourages both equity and initiative, a society capable of
satisfying its needs without jeopardizing the prospects of
future generations? How do we go about creating a sustainable society?
The term sustainable development is defined as development that meets the needs of the present generation
without compromising the ability of future generations to
meet their own needs. Most accept its focus on the importance of long-range planning, but as a policy tool it is
vague, providing no specifics about which needs and desires must be met and fulfilled and how.
In the debate on sustainable development, two different emphases have emerged. In the industrialized countries of North America, Europe, and Japan, the emphasis
has been on long-term rather than short-term growth, and
on efficiency. The emphasis has been on economics: If
today we rely on an incomplete accounting system, one
that does not measure the destruction of natural capital associated with gains in economic output, we deplete our
productive assets, satisfying our needs today at the expense of our children. There is something fundamentally
wrong in treating the earth as if it were a business in liquidation. Therefore, we should promote a systematic shift in
economic development patterns to allow the market system to internalize environmental costs. The environmental
costs of automobiles, for example, should include those
associated with acid rain, primarily in the form of more expensive gasoline.
This Western emphasis on the economic aspects of
sustainable development has been criticized in Africa,
Asia, and Latin America. Critics from the less-developed
world accuse environmentalists from the industrialized
world of dodging the issues of development without
growth and the redistribution of wealth. While some observers in the developing world may believe in the power
of markets to distribute goods and services efficiently, they
argue that social and political constraints are too severe to
provide answers to all our problems. Many criticize the
West’s excessive consumption of resources. Many advocates in the developing world put basic human needs
ahead of environmental concerns. Let us work toward a
sustainable future, but let us do so by ensuring food, shelter, clean water, health care, security of person and property, education, and participation in governance for all. An
extension of this sentiment is a desire to protect basic values as well—to respect nature rather than dominate it, and
to use the wisdom of indigenous groups to reexamine
current, mostly Western, structures of government and the
relationships that people have with the environment.
Is the consumerist West ready to listen to those with
different values and priorities? Surely there are many paths
to a sustainable future, each determined by individualized
priorities of what is desired and therefore worthy of sustaining. Surely too, in following those paths, we must rec-
Chapter 4 • Resources and Environment
ognize that future growth will be constrained by resources
that are finite or whose availability is difficult to determine.
Finally, we must realize that no region can achieve sustainability in isolation. A desirable and sustainable future will
be the result of many social and policy changes, some
small and at the local level, others international and farreaching. If we accept that the futures of the world’s rich
and poor are inextricably linked, perhaps we will enforce
policies that lead to a more just and equitable distribution
of the world’s resources. However, a world that rewards
only the rich at the expense of the poor—as has been the
case globally for the past several decades—is doomed to
social inequality and environmental destruction.
From a Growth-Oriented to
a Balance-Oriented Lifestyle
Given the dynamics of the market system, it is unlikely that
energy availability will place a limit on economic growth
on the earth; however, ultimately, drastic changes in the
rate and nature of the use of energy resources are certain.
The ultimate limits to the use of energy will be determined
by the ability of the world’s ecosystems to dissipate the
heat and waste produced as more and more energy flows
through the system.
In countless ways, energy consumption improves the
quality of our lives, but it also pollutes. As the rate of energy consumption increases, so too does water and air
127
contamination. Sources of water pollution are numerous:
industrial wastes, sewage, and detergents; fertilizers, herbicides, and pesticides from agriculture; and coastal oil spills
from tankers. Air pollution reduces visibility; damages
buildings, clothes, and crops; and endangers human
health. It is especially serious in urban-industrial areas, but
it occurs wherever waste gases and solid particulates are
released into the atmosphere.
Pollution is the price paid by an economic system
emphasizing ever-increasing growth as a primary goal.
Despite attempts to do something about pollution problems, the growth-oriented lifestyle characteristic of Western
urban-industrial society continues to widen the gap between people and nature. “Growthmania” is ultimately a
road to self-destruction. Many argue that we must transform our present growth-oriented, economic system into a
balance-oriented one that explicitly recognizes that natural
resources are exhaustible, that they must be recycled, and
that input rates must be reduced to levels that do not permanently damage the world’s environment. A balanceoriented economy does not mean an end to growth, but a
new social system in which only desirable low-energy
growth is encouraged. It requires a de-emphasis on the
materialistic values we have come to hold in such high esteem. If current resource and environmental constraints
lead us to place a higher premium on saving and conserving than on spending and discarding, then they may be
viewed as blessings in disguise.
Summary
We conclude by restating the resources-population problem. It is possible to solve resource problems by (1)
changing societal goals, (2) changing consumption patterns, (3) changing technology, and (4) altering population
numbers. In the Western world, much of the emphasis is
on technological advancement and population control.
Following a review of renewable and nonrenewable
resources, we explored the question of food resources.
The food “crisis” is essentially a consequence of social relations, including war and disruptions of agricultural systems. Food production is increasing faster than population
growth, yet more people are hungry than ever before. In
the course of transforming agriculture into a profit base for
the wealthy in the developed and in the less developed
worlds, the Third World poor are being forced into increasingly inhospitable living conditions. Famine, like
poverty, is a social construction, not a natural event, and
its origins, like its solutions, must be found in the uneven
distribution of resources among and within countries.
Unlike food, which is replenishable, nonrenewable
minerals and fossil fuels, once used, are gone forever. We
discuss some of the alternatives to fossil fuels and point to
energy conservation as a potent alternative with potential
that remains to be fully exploited. Finally, the comparison
between growth-oriented and balance-oriented lifestyles
underscores the importance of social concerns as they relate
to economic growth. Growth and inequality are inextricably
linked parts of social change and environmental protection.
Key Terms
acid rain 114
aquaculture 106
balance-oriented
lifestyle 97
biomass 122
carrying capacity 98
chlorofluorcarbons
(CFCs) 122
chronic malnutrition 100
conservation 115
deforestation 103
desertification 103
flow resources 99
fossil fuels 109
geothermal energy 119
global warming 122
Green Revolution 104
greenhouse effect 122
growth-oriented lifestyle 97
limits to growth 97
mariculture 107
maximum sustainable
yield 99
minerals 107
nonpoint sources 123
nonrenewable resources 98
nuclear energy 117
nuclear fission 117
nuclear fusion 117
Organization of the
Petroleum Exporting
Countries (OPEC) 109
128
The World Economy: Geography, Business, Development
overpopulation 98
ozone layer 122
passive solar
energy 121
point sources 123
projected reserves 98
recycling 99
renewable natural
resources 123
renewable resources 99
reserve 98
resource 98
solar energy 120
stock resources 99
strategic minerals
108
sustainable
development 126
tragedy of the
commons 99
transmaterialization 109
undernutrition 100
wind farm 122
Study Questions
1.
2.
3.
4.
5.
6.
What is meant by carrying capacity?
Differentiate renewable from nonrenewable resources.
What are the major causes of Third World hunger?
What are three methods of expanding world food production?
What was the Green Revolution? Where was it largely located?
Summarize major flows of oil on the world market.
7. Where are the major world coal deposits located?
8. What are some alternative energy options to fossil fuels?
9. What are some environmental consequences of high energy
use? Be specific.
10. What is sustainable development?
Suggested Readings
Castree, N., and B. Braun, eds., 2001. Social Nature: Theory,
Practice, and Politics. London, UK: Blackwell.
Ellis, R. 2003. The Empty Ocean: Plundering the World’s Marine
Life. New York: Shearwear Books.
Falola, T., and A. Genova. 2005. The Politics of the Global Oil
Industry. New York: Praeger.
Klare, M. 2002. Resource Wars: The New Landscape of Global
Conflict. New York: Owl Books.
Zimmerer, K. 2006. Globalization and New Geographies of
Conservation. Chicago: University of Chicago Press.
Chapter 4 • Resources and Environment
129
Web Resources
Conservation Databases—WCMC
http://www.unep-wcmc.org
State of The World’s Forests—FAO
http://www.fao.org/forestry/home/en/
The World Conservation Monitoring Centre, whose purpose is
the “location and management of information on the conservation and sustainable use of the world’s living resources,”
provides five searchable databases. Users can search by
country for threatened animals and plants (plants are available for Europe only), protected areas of the world, forest
statistics and maps, marine statistics and maps, and national
biodiversity profiles (12 countries only at present).
Information is drawn from several sources, and database documentation varies from resource to resource.
The United Nations Food and Agriculture Organization presents
information on the current status of the world’s forests, major
developments over the reporting period, and recent trends and
future directions in the forestry sector. It provides information
on global forest cover, including estimates for 1995, change
from 1990, and revised estimates of forest cover change.
Environmental Protection Agency
http://www.epa.gov
This site provides everything you ever wanted to know about environment and material resources.
Log in to www.mygeoscienceplace.com for videos, In the
News RSS feeds, key term flashcards, web links, and self-study
quizzes to enhance your study of resources and environment.
OBJECTIVES
쑺 To present the basic factors underlying the location
decisions of firms
쑺 To summarize the Weberian model of transport costs
쑺 To show how production technique, scale, and
location are interrelated
쑺 To illustrate how and why firms grow and change
over time and space
쑺 To reveal the geographical organization of large
corporations
Female workers on the assembly line
at a low-voltage electrical appliance
factory in Taizhou, China.
쑺 To describe the relevance of the product cycle in the
changing locational requirements of firms
쑺 To depict the role of business cycles, particularly
Kondratiev long waves
쑺 To emphasize the role of the state in shaping
economic landscapes
CHAPTER
Theoretical Considerations
5
heory is a way of looking at the world, an explanation, a way of making sense of the relationships among
variables. Theory is what separates description from explanation. A theory allows us to establish causality, to
test hypotheses, to justify arguments, and to make claims to truth. Theories are simplifications about the world
that allow us to gain understanding. Theories are thus indispensable to knowing how the world works, whether in
the formal intellectual world or in our everyday lives at home and at work. Understanding theory is not a choice,
because theory is inescapable. We all use theories every day, whether we’re aware of them or not. Economic geographers use theory as well, ranging from the simple to the very sophisticated, to understand the order and chaos of
economic landscapes.
There are a variety of theoretical frameworks for interpreting economic landscapes, including traditional industrial
location theory; the behavioral approach; and the political economy, or structural, perspective. Industrial location
theory derives from and shares the conservative ideology of neoclassical economics, using abstract models to search
for best, or optimal, locations. The behavioral approach focuses on the psychology of the decision-making process:
Rather than considering how decisions should be made in firms, it examines how decisions are made. This approach
recognizes the possibility of suboptimal behavior. The political economy perspective emphasizes the historical context
and social relations within which industrial activity takes place.
This chapter offers an overview of some of the major conceptual approaches and topics in economic geography.
It begins with a discussion of the factors of location that influence industrial locations of single-plant firms. Industrial
in this context should not be interpreted to be the same as manufacturing; every major sector of the economy is
an industry, including many services, such as finance, legal services, advertising, and accounting. The factors of
location include labor, land, capital, and management. This chapter delves into the first, and still highly influential,
model of industrial location, introduced by Alfred Weber a century ago. It explores the interrelations among production technique, scale of output, and geographic location. It discusses how and why firms grow over time and space
and then turns to the geographical organization of firms, moving from simple single-establishment ones to large,
multi-establishment, multiproduct corporations with well-developed internal divisions of labor. The chapter emphasizes the social forces and contexts that firms simultaneously produce and are produced by, including conflicts
between capital and labor, and then turns to the cyclicality of capitalism, its tendency toward boom-and-bust cycles,
which in turn shape uneven spatial development. The chapter concludes by reciting some of the many ways the
state, or government, plays a critical role in building, changing, and reproducing the economic geographies of
capitalism.
T
FACTORS OF LOCATION
Numerous variables influence the location of firms and industries, which are aggregations of firms. The locational
decision of a firm is thus quite complex, and many companies spend considerable time and effort in choosing the
optimal location. After all, investments in inappropriate locations can be disastrous. Thus, firm decision making is a
rational process, if an imperfect one, and is subject to the iron laws of market competition. Although personal considerations such as climate or the owner’s preferences may figure in from time to time on the margins, firms cannot
choose locations arbitrarily or they will be forced out of business by their more rational competitors. The major
factors that shape a firm’s location include labor, land, capital, and managerial and technical skills. All these are
necessary for production, and all exhibit spatial variations in both quantity and quality.
131
132
The World Economy: Geography, Business, Development
Labor
For most industries (except those in the primary economic
sector concerned with extractive activities), labor is the
most important determinant of location, especially at the
regional, national, and global scales. (At local scales, such
as within a commuting field, other factors such as rents
may become more significant.) When firms make location
decisions, they often begin by examining the geography of
labor availability, productivity, skills, and militancy. The
degree to which firms rely on labor, however, varies considerably among different sectors of the economy, and
even among different firms, which may adopt different
production techniques.
Labor is required for all forms of economic production,
but the relative contribution of labor to the cost structure
and value added varies considerably among industries. For
example, the contribution of labor costs is high in the
automobile industry but very low in the petroleum industry. The demand for labor depends on how labor-intensive
or capital-intensive a given production process is. In highly
capital-intensive industries such as petroleum, labor costs
may be so small a share of total costs as to be essentially
irrelevant. Thus it is a mistake, but a common one, to assume that all industries seek out low-cost labor. Over time,
most industries have become increasingly capital-intensive,
that is, they have substituted capital for labor, particularly
when production in large quantities justifies the investments involved. The use of tractors in agriculture, machinery and robots in manufacturing, or computers in services
and office work are examples. Much of the productivity
growth of capitalism has historically resulted from capitalintensification.
The supply of labor in a given region also greatly affects
its cost. In countries with high birth rates, the supply tends
to be relatively high, and labor costs are therefore low. In
economically advanced countries, late in the demographic
transition, the birth rate is low and labor is relatively expensive. These trends shape the willingness of firms to become
more capital-intensive: When labor is cheap, there is little
incentive to mechanize.
There are great variations among industries in terms of
their preferences for different types of workers. Because
some firms demand particular types of workers in terms of
their age or sex, the demographic structure of a region also
shapes the supply of certain types of employees. The fastfood industry, for example, prefers young workers who
will work for minimum wage, and the supply of this demographic segment is more limited in certain regions than in
others. Finally, since labor is mobile over space (but not
perfectly so), migration (or internationally, immigration)
also shapes the local supply of labor. In regions that can
attract labor easily, wage rates will tend to be low, all else
being constant. When the supply is limited by, say, immigration restrictions, wage rates tend to go up. For example,
limitations placed by the U.S. Congress on immigration
shortly after WWI contributed to the rise in wages in the
1920s. At the local level, housing costs can also constrain
the supply of labor if they are so high that workers cannot
find affordable places to live, an increasingly common
problem in the coastal areas of the United States.
In theory, because labor is relatively mobile, regional
differences in the supply and demand for labor should
move toward equilibrium over time. A high demand for
labor in one place, and thus high wages, and an excess
supply in another, and thus low wages, should be brought
into equilibrium by labor migration. Examples are the
nineteenth-century migration of people from rural areas to
the city in countries such as Britain and the United States,
and the twentieth-century movement of labor from the
Third World to the wealthy countries of northern Europe:
from the Caribbean and South Asia to Britain, from North
Africa to France, and from Turkey to Germany (Chapter 3).
As is the case with all production factors, the response
of labor to changing market conditions is not instantaneous. Labor has a relatively high degree of inertia, especially in the short run. People are generally reluctant to
leave familiar places, even if jobs are plentiful in other
areas. They will sit out short periods of unemployment or
accept a smaller net income than could be earned elsewhere. Public policies, such as unemployment payments
and workers’ compensation, have reduced the plight of
the unemployed and underemployed in advanced industrial countries in this century. The lack of instantaneous
adjustment in labor demand and supply has resulted in
variations in the cost of labor within and among countries.
In the United States, wages are often higher in the more
industrial states and in highly unionized environments.
It is a common myth, but simply not true, that firms
always want the cheapest labor possible. Cost is only
one of many factors. Equally important is productivity.
Productivity is largely a function of the skills present in the
local labor force, or human capital, which in turn are
derived from formal and informal educational systems,
on-the-job training, and years of experience. Firms will
pay relatively high wages for skilled, productive labor if
the cost is justified by higher output and profits. To illustrate
this point, consider that if labor costs were central to the
location of all firms, then very low-wage countries—say,
Mozambique—should attract vast quantities of capital,
which they don’t, and high-wage countries, such as
Germany or Japan, should see a rapid exodus of jobs.
Similarly, low-wage states in the United States, such as
Mississippi, should attract firms, while high-wage ones
such as Minnesota should repel them, although in reality
the opposite is the case. The reality of the geography of
labor is much more complex, of course, and involves national and local labor markets in which jobs are constantly
created and destroyed; skills are produced, reproduced,
and changed; new technologies come into play; and other
cultural, economic, and social forces interact. What firms
seek as much as cheap labor is productive labor.
The skill level of a given occupation greatly affects the
size of its labor market. Generally, skilled labor markets
tend to be geographically larger than unskilled ones.
Workers may migrate hundreds or thousands of miles for
Chapter 5 • Theoretical Considerations
well-paying positions, and the market for many skilled
jobs is global in reach, including corporate management,
professional services, and university professors. Unskilled
positions, in contrast, typically draw from a relatively small
laborshed; few people would travel cross-country, for
example, to take a job as a janitor or cashier.
It is worth emphasizing that labor is also important
because the labor factor is saturated with politics. Labor is
the only input that is sentient, and it alone is able to resist
the conditions of exploitation, to go on strike, to engage in
slowdowns, or to unionize (Figure 5.1). Unionization rates
vary widely across the United States (Figure 5.2), adding to
differentials in the cost of labor. The South is generally
much less unionized than the North, in part due to “right
to work” laws that forbid workers in an establishment from
being forced to join a union. Thus, in addition to the cost
of labor, firms must consider working conditions, health
and safety standards, pensions and health benefits, vacations and holidays, worker training, subsidized housing,
and the role of labor unions, all of which shape local wage
rates and productivity levels.
FIGURE 5.1 Labor alone, unlike other inputs to production, is
sentient and capable of changing the conditions of work, as with
strikes or slowdowns.
133
On the world scale, developed countries have higher
wage rates than newly industrializing countries. One factor
responsible for differential wage rates is the level of worker
organization. Higher rates of unionization are associated
with higher wages. Unionization is generally more prevalent in the older, established industrial countries than in
the newly industrializing countries. Thus, considerable
advantages can be gained by companies that relocate to,
or purchase from, newly industrializing countries, especially if these countries are characterized by low levels of
capital–labor conflict. The capital–labor conflict, manifested
in industrial disputes, is a powerful force propelling the
drift of industrial production outward from the center to
the periphery of the world system.
Land
At the local scale (i.e., within a particular metropolitan
commuting area, in which labor costs are relatively
constant), land availability and cost are the most important
locational factors affecting firms’ location decisions. The
cost of land reflects the highly localized supply and
demand, and different types of firms require different
quantities in the production process. Generally, larger firms,
particularly in manufacturing, require more land and are
thus more sensitive to the costs, although in some sectors,
such as producer services, firms pay very high costs (in rent
or by purchasing a site). Firms often engage in intensive
examination of several possible sites before settling on an
optimum location.
The primary determinant of the cost of land is its
accessibility. Transport costs (the measure of accessibility)
determine the location rent of parcels at different distances
from the city. Thus, because land downtown is the most
accessible, it is by far the most expensive; in most cities,
land costs decline exponentially away from the city center
(Figure 5.3).
However, not all firms necessarily seek out low-cost
land. The imperative to do so depends on the trade-off
between land and transportation costs that firms make to
maximize their profits. Firms that must have accessible
land—generally labor-intensive firms that must maximize
their accessibility to labor, to each other, to specialized
pools of information, and to urban services such as legal
firms—will pay very high rents in order to locate near the
city center. Firms that do not require access to clients, suppliers, and services, on the other hand—such as large
manufacturing firms in suburban industrial parks—make a
different trade-off, choosing to locate on the urban periphery where land costs are low but transport costs are higher.
The demand for land and the need to agglomerate are thus
inversely related.
Within metropolitan areas, a centrifugal drift of manufacturing to suburban properties has been taking place since
the 1970s. Factories historically needed a large amount of
land, preferably in a one-story building. Large parcels of land
are more likely to be available in the suburbs than in centralcity locations, where accessibility makes land relatively
The World Economy: Geography, Business, Development
134
ME
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VT
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TN
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FIGURE 5.2 Percent of U.S. workers covered by labor unions, 2007. Unlike other inputs to the production process, labor alone can
struggle to improve the conditions of its work. Unionization has declined sharply in the United States, to 15% of the labor force from
a high of 45% in 1950, largely due to deindustrialization. Unions are much less well represented in services than in manufacturing and
less prevalent in “right-to-work” states, particularly in the South, where they are not legally entitled to require workers at an
establishment to join.
expensive. However, computerization and just-in-time inventory systems have diminished the need for land in some
cases. More reasons why industrial properties have expanded
into the suburbs include locations that are easily accessible
to motor freight by interstate highway and beltway and access
to suburban services and infrastructure, including ample
sewer, water, parking, and electricity. Industries may also be
attracted to the suburbs because of nearness to amenities
and residential neighborhoods. Suburban locations minimize
labor’s journey to work, which helps to hold wages down.
Capital
$ per
unit area
CBD
Distance
FIGURE 5.3 Land costs decline with distance from the central
business district (CBD) in most cities because accessibility to parcels
in the periphery falls and transport costs rise. Firms and households
all make trade-offs between rents and transport costs depending
on their specific locational needs.
Under capitalism, capital plays a dominant role in structuring the production process. Capital takes one of two major
forms: fixed capital and financial capital. Fixed capital
includes machinery, equipment, and plant buildings, and
is often expensive. Besides the installation and construction costs, firms must budget for maintenance and repair
and depreciation. The age of the capital stock of a region,
or how recent the technology it deploys is, greatly affects
its overall productivity levels: Places with newer fixed investments are more productive. Thus, after World War II,
countries like Japan and Germany, whose capital stock
had been destroyed, started over with new equipment and
machinery and enjoyed high levels of productivity growth
as a result. Japanese and German steel producers, for example, used electrical furnaces while American ones still
relied on older Bessemer open hearth ones (Chapter 7).
Financial capital includes intangible revenues, including corporate profits, savings, loans, stocks, bonds, and
other financial instruments. The rate of capital formation
reflects variables such as corporate profitability (including
market prices, production costs), savings rates, interest
rates, and taxation levels. Financial capital is by far the
most mobile production factor. The cost of transporting
liquid capital is almost zero and it can be transmitted almost
instantaneously over fiber-optic lines. Fixed capital is
much less mobile than liquid capital; for example, capital
invested in buildings and equipment is obviously immobile
and is a primary reason for industrial inertia. Any type of
manufacturing that is profitable has an assured supply of
liquid capital from corporate revenues or borrowing (depending on the firm’s credit rating). Interest rates—the cost
of capital—hardly vary within individual countries, but do
vary among them.
Most types of manufacturing, however, initially require
large amounts of fixed capital to establish the operation—
or, periodically, to expand, retool, or replace outdated
equipment or to branch out into new products. The cost of
this capital must be paid from future revenues. Investment
capital has a variety of sources: personal funds; family and
friends; lending institutions, such as banks and savings
and loan associations; and the sale of stocks and bonds.
Most capital in advanced industrial countries is raised from
the sale of stocks and bonds, although American firms rely
on this approach more than do firms in Europe, where
banks play a larger role in industrial financing. The total
supply of investment capital is a function of total national
wealth and the proportion of total income that is saved.
Savings become the investment capital for future expansion.
Whether a particular type of industry, or a given firm,
can secure an adequate amount of capital depends on
several factors. One factor is the demand for capital, which
varies from place to place and from time to time. Because
financial capital can travel instantaneously (Chapter 8),
variations in the cost of loans within a country tend to be
very small. Of course, capital can always be obtained if
users are willing to pay high enough interest rates, which
reflect the dynamics of capital markets and government
policy. Beyond supply-and-demand considerations, investor
confidence is the prime determinant of whether capital
can be obtained at an acceptable rate. Investor confidence
in a particular industry may exist in one area but be lacking in another. Investor confidence is expressed in several
ways, including the willingness to purchase a company’s
stocks and bonds as well as venture capitalists’ willingness
to provide start-up capital for new firms.
Capital is important as well because firms can substitute
capital for labor in a process of capital intensification, that
is, using technology to displace workers (Figure 5.4). The
history of capitalism is largely one of steady capital intensification in different industries, particularly in agriculture,
in which only a tiny fragment of the labor force in
industrialized countries now works. Capital intensification
can increase productivity, but it may also leave workers
without jobs. For workers, this process is beneficial only if
Labor Per Unit of Output
Chapter 5 • Theoretical Considerations
135
Capital
intensification
Capital Per Unit of Output
FIGURE 5.4 The process of capital intensification, or substitution
of capital for labor, is a long-term trend under capitalism. Firms
seek to reduce costs and raise productivity by using machines
instead of workers per each unit of output. However, when labor
costs are low, or jobs are difficult to automate, capital substitution
may not occur.
the cost of goods drops sufficiently to increase real incomes
and the rise in worker expenditures can generate job growth.
Historically, this has generally been the case, although
much of the job losses associated with deindustrialization
are attributable to capital intensification (Chapter 7).
One of capital’s crucial advantages over labor is
geographic mobility; it can make use of distance and differentiation in a way that labor cannot. Corporations take
advantage of such flexibility by shifting production to lowwage regions, setting up plants in areas with low levels of
worker organization, or establishing plants in areas that
offer incentives. Even threatening to move can aid companies in their attempts to hold wages and benefits down.
Managerial and Technical Skills
Managerial and technical skills are also required for any
type of production. Management involves the nuts and
bolts of corporate decision making, including allocating
resources, raising capital and negotiating financial markets,
keeping abreast of the competition and government rules
and policies, making investment decisions, hiring and firing,
marketing and public relations, and performing numerous
similar types of functions. Corporate management reflects
and shapes the organizational structure of a firm, including
the pattern of ownership and how decisions are made.
The forms of management may range from sole proprietorships to partnerships to complex corporate hierarchies,
and firms may be either publicly or privately owned (the
former sell stocks and are owned by shareholders, the latter
are typically family owned).
Within firms, management forms an important part of
the corporate division of labor (as illustrated by the functions
of corporate headquarters as compared to those of branch
plants). In large firms, headquarters decides a firm’s overall competitive strategy, what markets and products to
focus on, labor policies, mergers and acquisitions, and
types of financing. Thus, these jobs tend to be skilled, well
136
The World Economy: Geography, Business, Development
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CA
VA
35°
KY
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TN
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AZ
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30°
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40+
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95°
200
200
400 MILES
400 KILOMETERS
90°
85°
80°
FIGURE 5.5 Corporate headquarters in the United States, 2008. Headquarters are the sites for the producer services and decisionmaking functions required to make all companies operate effectively and profitably, including management and administration,
public relations, advertising, legal services, and research and development. Because they require numerous linkages to other firms,
particularly other high value-added services, headquarters generally cluster in large cities. Cities in the northeastern and midwestern
United States, with skilled labor pools and dense agglomerations of ancillary services, have been the most attractive. Historically, New
York City has been the location of the majority of the nation’s headquarters, although there has been a gradual decentralization to
other cities lower in the urban hierarchy.
paying, and white collar. Most U.S. headquarters are in
the largest urbanized areas of the country (Figure 5.5;
Table 5.1). The top 10 metropolitan headquarter areas for
large firms are New York City, Chicago, San Francisco, and
Los Angeles, followed by Dallas, Houston, Philadelphia,
Washington, DC, Boston, and Atlanta.
Technical skills are those necessary for the continued
invention of new products and processes. These skills are
generally categorized as research and development (R&D).
In the early phases of industrialization in developed countries, product development was usually carried out in
tandem with production by small firms, many of which, together with their innovations, failed to survive. Today, the
R&D required for new products is typically a large and
expensive process, involving long lead times between invention and production, a process that is often beyond
the scope of small firms. The cutting edge of advanced
industrial economies, R&D is concentrated in a few major
research-university clusters and established areas of innovation, often as measured by the geography of patent
applications. Three of these in the United States are Silicon
Valley, the region south of San Francisco Bay in the vicinity
of Stanford University (Figure 5.6); Boston and Route
128, home to Harvard and the Massachusetts Institute of
Technology; and the Research Triangle of North Carolina,
so called because of three universities located there—
the University of North Carolina at Chapel Hill, Duke
University in Durham, and North Carolina State University
at Raleigh. Roughly equidistant from the three main cities,
Research Triangle Park is home to the laboratories of IBM,
Burroughs Wellcome, Northern Telecom, and other major
companies conducting R&D.
For most of the twentieth century, the United States
was the world’s leader in technological innovation.
Starting in the 1970s, however, the rate of new inventions
and granted patents declined. Factors that slowed U.S. innovation included a decline in federal government support
for basic research (e.g., funding for the National Science
Foundation and National Institutes of Health), particularly
because the bulk of federal research dollars is oriented
Chapter 5 • Theoretical Considerations
increase productivity. In 2006, U.S. expenditures for R&D
represented 2.6% of the gross domestic product (GDP),
compared to Japan (3.4%), South Korea (3.2%), Germany
(2.5%), the United Kingdom (2.3%), France (2.1%), and
China (1.4%). As a group, these countries dominate the
world in the number of R&D scientists and engineers and
in the amount of R&D expenditures.
Table 5.1 Location of Major U.S. Corporate Headquarters
New York City
Chicago
San Francisco
Los Angeles
Dallas–Ft. Worth
Houston
Philadelphia
Washington, DC
Boston
Atlanta
Minneapolis
St. Louis
Cleveland
Detroit
Miami
Denver
Milwaukee
Nashville
Phoenix
Tampa
Seattle
San Diego
239
109
91
85
76
70
70
66
66
53
50
39
35
34
31
27
26
25
23
20
19
18
THE WEBERIAN MODEL
toward the military, because of a widespread lack of interest in science education among the public, because many
organizations focus on quick returns rather than long-run
growth, and because of difficulties in obtaining venture
capital. Corporate outlays for R&D rose in the late twentieth century as foreign competition and high labor costs
forced firms to automate in order to reduce costs and
Redwood
City
Menlo
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Francisco
East Palo
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Alto
Stanford
STANFORD U
101
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Oakland
San
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San Jose
San Jose
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0 5 10 Kilometers
See inset
eBay
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Palo Alto
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880
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0
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Bay
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San Jose
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A.F.S.
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HP
XEROX
Sa
Berkely
A list of location factors is not a theory. Combining these
elements in an analytical way is the task of location theory,
a time-honored part of economic geography. Classical
industrial location theory is founded on the work of Alfred
Weber in 1929, a German economist and younger brother
of the famous sociologist Max Weber.
Weber’s approach emphasized the role of transportation costs in the location decisions of individual firms. He
attempted to determine the patterns that would develop in
a world of numerous, competitive, single-plant firms.
Although the model originated in the study of manufacturing, it is applicable to other sectors, such as services, as
well. Weber began by assuming that transportation costs
are a linear function of distance. The model assumes that
producers face neither risk nor uncertainty and that the
demand for a product is infinite at a given price; producers
could sell as many units as they produced at a fixed price.
Weber taught geographers to think about the distinction between material- and market-oriented industries.
The first cost faced in the production process is that of
assembling raw materials. Raw materials, such as coal, are
found only at specific locations; their transportation costs
are a function of the distance that they must be moved.
For each case we must consider (1) the costs of assembling raw materials (RM), (2) the costs of distributing the
Google
HP
HP
280
Fremont
NASA
85
Saratoga
137
Campbell
0
0
.5
.5
1 Miles
1 Kilometers
FIGURE 5.6 Silicon Valley, just south of San
Francisco, California, is the world’s largest region
for producing computer software. It exemplifies
the tendency of skilled, high-value-added
economic activity to cluster in distinct areas, much
like Italy’s Emilia-Romagna or Germany’s BaddenWurtenburg. U.S. leadership in high-value
economic activity is being challenged these days
by China, however. China repeatedly and willfully
drives its currency value down to make its exports
cheaper than those produced in America. From
2000 to 2010, the U.S. trade deficit with China
grew 400%. During the same time, 5.4 million
American jobs in manufacturing were eliminated.
Even though the United States develops most of
the innovations in high value-added economic
activity, once China adopts the innovations, it is
tough for U.S. manufacturers to compete against
China's lower wages, looser regulations, and
cheaper currency. However, there is an upside to
cheap Chinese imports: They lower the cost of
products to world and U.S. consumers, and China
uses many of its excess dollars gained by selling
products to America to buy U.S. Treasury Bills,
financing the $14 trillion deficit of the U.S.
government, and holding down interest rates.
138
The World Economy: Geography, Business, Development
10
TTC
5
Trans. Cost ($)
Trans. Cost ($)
TTC
RM
FP
RM
Distance
M
(a)
RM
FP
RM
M
(b)
FIGURE 5.7 Weber’s model: one localized raw material, located at RM. The line RM represents assembly costs, while
the line FP represents finished-product distribution costs. In Figure 5.7a, total transport costs are lowest at RM, as in
primary-sector activities. In Figure 5.7b, total costs (TTC) are lowest at the market (M); in this example an industry in
which the raw material accrues weight in the production process, total transportation costs are minimized by locating
the plant at the site of the market.
finished product (FP), and (3) the total transportation costs
(TTC ) (Figure 5.7). The best location for a manufacturing
plant is the point at which total transportation costs are
minimized.
In Figure 5.7a, the assembly costs for the localized raw
material (RM) are minimized at point RM. Finished-product
distribution costs are minimized at M. Thus, in cases where
the cost of shipping raw materials outweighs the costs of
shipping the final product, the firm will locate near the
raw materials—an iron ore mining company, for example
(Figure 5.8). In Figure 5.7b, raw materials, once processed,
add to the weight of the finished product, so the total
transportation costs (TTC ) are minimized at the market
(M). Bottled and canned soft-drink manufacturing exemplifies the use of one pure raw material (syrup concentrate). If the plant locates at the market, the water, which
FIGURE 5.8 Gravel mining operations, such as
this open cast iron ore in Carajas, Brazil, reflect
an industry in which transport costs for the
inputs are high, which leads firms to locate near
the raw material. Localized pure raw materials
notwithstanding, few firms are making new
locational decisions at the present time due
to the recent Great Recession. New investment
money is tight. All recessions are painful, but the
hangovers that follow financial crises, such as
the recent one from 2007 to 2009, are particularly
long and grim. Growth is substantially lower
than during “normal” recoveries as households
and firms reduce their debt burdens. Output is
sluggish, and credit is growing weakly or
shrinking across much of the rich world.
makes the largest contribution to the weight of the finished product, does not need to be moved (Figure 5.9).
Weber in Today’s World
Weber’s model was originally developed from an analysis
of manufacturing firms, although it can be applied to other
sectors. It is useful to explore the influence of transportation
costs in a rigorous way, and many economic geographers
still work in this tradition. But despite its broad appeal,
several developments limit its applicability. First, not all
firms need to minimize transport costs; as we saw with
the rent–transport trade-off that all firms must make, some
firms will accept higher transport costs and locate on the
urban periphery. Second, the production process is much
more complex than it was in the early twentieth century
Chapter 5 • Theoretical Considerations
139
Soft Drink Plants
40
°
erio
Sup r
L.
°
40
L. Michigan
140°
L. ron
u
H
nt.
L. O
L.
e
Eri
PACIFIC
ATLANTIC
OCEAN
OCEAN
30°
0
130°
500 MILES
500 KILOMETERS
155°
20°
GULF OF
MEXICO
20°
0
250
0
120°
160°
250
20°
Bottling Plant
160 MI.
160 KM.
0
160°
155°
110°
80°
70°
FIGURE 5.9 Bottled and canned soft-drink manufacturing exemplifies a form of production that is market oriented.
Most concentrate on the peripheries of metropolitan areas.
when Weber developed his model. Many plants begin with
semifinished items and components rather than with raw
materials. Producers’ goods seldom lose large amounts of
weight; therefore, there is not much of a tendency to
locate near raw materials.
Weber’s model has also been criticized for its unrealistic view of transportation costs as a linear function of distance. Because of fixed costs, especially terminal costs, the
mileage costs of long hauls are less per unit of weight than
those of short hauls. Plants tend to locate at material or
market points rather than at intermediate points, unless
there is a forced change in the transportation mode, such
as at a port. However, the disadvantages of intermediate
locations have been reduced with the expansion of the
modern trucking industry and its flexibility for short hauls.
Two other developments have a bearing on how
choices of industrial location have changed:
1. Transportation costs have been declining in the
long run. This decline increases the importance of
other locational factors, particularly labor costs and
productivity. This is most obvious in firms producing
high-value and high-tech products. For these firms,
transportation costs are relatively unimportant. Yet
for firms that distribute consumer goods (e.g., soft
drinks) to dispersed markets, transportation costs remain a significant factor (Table 5.2).
2. Brainpower has been steadily displacing muscle
and machine power and transforming natural resources. Natural resources are no longer as important
in the growth of economies as they were historically.
Instead, a widespread transmaterialization of resources
has occurred as smaller, lighter products are made
from resources to which high technology and brainpower have been added.
TABLE 5.2 Transport Costs as a Percentage of
Product Prices
Stone, clay, and glass
Petroleum
Lumber and wood
Food
Furniture
Paper products
Primary metals
Textiles
Fabricated metals
Transport equipment
Rubber and plastics
Tobacco
Machinery
Instruments
Apparel
Printing and publishing
Electronics
Leather products
27
24
18
13
12
11
9
8
8
8
7
5
5
4
4
4
4
3
Source: Compiled by authors from U.S. Department of Commerce national
input-output tables.
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The World Economy: Geography, Business, Development
3. Finally, real-world patterns are evolutionary;
they are not the result of decisions made by optimizers. Most real-world decisions do not result in the
selection of the best (most profitable) locations.
Locational decisions, once made, often lead to
industrial inertia, the tendency to continue investing
in a nonoptimal site even if more optimal locations
exist. Tensions develop between ideal spatial patterns
and the patterns produced by localized resources. As
technology (especially transportation) improves, ideal
spatial patterns (from the entrepreneur’s viewpoint)
become more feasible, but the inertia resulting from
past actions exerts a constant deterrent to actualizing
these patterns.
TECHNIQUE AND SCALE CONSIDERATIONS
The establishment of any manufacturing plant in a market
economy involves the interdependent decision-making
criteria of scale—the size of the total output—and
technique—the particular combination of inputs that are
used to produce an output. Technique has an important
effect on a firm’s locational decision. A certain amount of
land (resources), labor, and capital is needed to produce
any finished product, but, within economic and technological limits, firms can substitute among inputs to minimize
their costs: Capital may be substituted for labor. The greater
the differences are among inputs in terms of their prices
and productivity levels, the more incentive firms have to
substitute among them.
The most evident trend has been substitution of capital in the form of machinery for labor. This trend is most
evident in agriculture, which has progressively changed
from very labor-intensive to capital-intensive over time.
More and more manufacturing systems, which apply
sophisticated technology, including robotics, to improve
the quality and efficiency of production are replacing labor.
In services, capital intensification is also evident in the
computerization of the office. Whether or not substitution
between production factors occurs depends on the relative
costs and productivity of the two inputs and the scale and
locational decisions already made by the firm. If, for example,
labor costs rise at a given location, the firm may choose to
substitute capital for labor at that location, or it may opt to
change locations to take advantage of lower labor costs
and thus maintain the same labor-to-capital ratio.
The limits to substitution among inputs vary considerably from industry to industry and are fixed for given periods of time by technological constraints and the prices of
inputs. Firms must choose from an available suite of options as to how they want to produce, and the costs of
labor, land, and capital will greatly affect these choices.
Some industries lend themselves more to capital intensification than do others. Petroleum refining, for example, can
be readily automated, whereas garment manufacture cannot.
The garment industry, therefore, is much more sensitive to
changes in labor costs than is petroleum. In the late
nineteenth and early twentieth centuries, the U.S. textile
industry shifted from old, multistoried New England mills
to new mills in the Southern Piedmont as labor costs rose
in the Northeast. This is an example of the influence that
options in technique exert to determine the locational
decision. The increased labor costs in the Northeast outweighed the costs of moving the industry to the Southeast.
Of course, the wage advantage of the South did not persist
indefinitely; as new industry moved south, wages there
rose. Eventually, textile firms migrated farther afield—to
Mexico, Brazil, Taiwan, South Korea, and Singapore, and
then left many of those for even cheaper locations such as
China. If capital substitution had been a viable option, the
textile industry might not have moved. Many times a firm
may want to change its scale to increase output and to
earn extra profits. A change in scale may also require a
change in location and/or technique.
Scale Considerations
Along with location and technique, economic scale is also
important because producers are concerned with the unit
cost of production—and adjustments in scale can produce
considerable variations in unit cost. Scale is the means by
which production is “tuned” to meet demand. In some
economies, this tuning may be done by the state; in others,
by private entrepreneurs.
Principles of Scale Economies
Along with standardization of parts, the division of labor
is a primary feature of mass production. Workers who
perform one operation in the production process over and
over are much more efficient than those who are responsible for all phases. The division of labor not only increases
the efficiency of production but also facilitates the use of
relatively unskilled labor. A worker can learn one simple
task in a short time, whereas the skills required to master
the entire operation might take years to learn. This process
was instrumental, for example, in the early growth of the
U.S. automobile industry in the system pioneered by
Henry Ford (Chapter 7). Division of labor, however, requires a relatively large scale because a large pool of
workers is necessary. A common way to measure the size
of a firm is by the number of employees. Capital, once invested in machinery and buildings, becomes fixed capital
and produces income only when in operation. A threeshift firm makes much more efficient use of its fixed capital than a single-shift firm does. The three-shift firm is
three times larger in scale, measured by employment, yet
its fixed capital investment may be no more than that of
the single-shift firm.
Economies of scale, or scale economies, refer to the
reductions in costs associated with the production of output in large quantities. Large firms generally pay much
less for material inputs than small firms do. For example,
Ford Motor Company can obtain tires for a much lower
unit price than an individual dealing with the same tire
company can, because Ford buys millions of tires a year.
Chapter 5 • Theoretical Considerations
Increasing scale, in other words, generally lowers the unit
cost of inputs.
Economists portray scale economies as a curve of longrun average costs (LRACs), which graphs the unit costs as
a function of scale. Several possible LRAC curves are indicated in Figure 5.10. Notice that unit costs decrease, reach
an optimum point (O), and then began to increase. The rise
in the curve is termed diseconomies of scale (diminishing
marginal returns to scale) and occurs when a firm becomes too large to manage and operate efficiently. The
optimum scale of operation is very small in Industry
A, very large in Industry C, and fairly wide-ranging in industry B. Firms in Industry A should be small, they should
be large in Industry C, and they can range from small to
large in Industry B.
Vertical and Horizontal
Integration and Diversification
Besides simply increasing plant size, two other means are
commonly employed for effecting scale changes. Some
firms purchase raw material sources or distribution facili-
Industry A
Cost per Unit
LRAC
O
Plant Size
Cost per Unit
Industry B
LRAC
O1
Plant Size
O2
Cost per Unit
ties. This is called vertical integration (or vertical merger)
in that the firm controls more steps “up and down” in
the total production process. Some early large automobile firms, for example, owned their own iron and coal
mines and produced their own steel; over time, however,
auto producers have become more vertically disintegrated,
that is, the production of different parts has been taken
over by specialized firms. Large oil companies are often
vertically integrated; they control exploration, drilling,
refining, and retailing. In contrast, horizontal integration
(or horizontal merger) occurs when a firm gains an
increasing market share of a given niche of a particular
industry. This is typical when markets become oligopolistic, that is, when they are controlled by a handful of
large firms.
Another trend among corporations in the United States,
Japan, and Western Europe has been a strategy of
diversification. Many large corporations, through conglomerate mergers and acquisitions, control the production and
marketing of diverse products. A company may produce
many unrelated products, each of its operations having elements of horizontal and vertical integration. Diversification
spreads risk and increases profits. Diminishing demand for
the products of one division may be offset by rising sales in
another.
Most industrial location theory is based on small,
single-plant operations producing a single product. Large
corporations are much more complex, but they deal with
all the variables of location theory and must still make
locational decisions. Although large enterprises may seem
to be more concerned with technique and scale decisions,
each locational decision has an effect on scale and technique. We should consider two points: First, large firms
may be able to operate in less than optimal locations and
still have a significant effect on the market through the
control that they exert over government policies and
the prices and sources of raw materials. Conversely, large
firms may be able to make optimal locational choices
through their employment of the scientists and technical
personnel who help top management make more profitable decisions.
Interfirm Scale Economies: Agglomeration
Industry C
LRAC
Plant Size
141
O
FIGURE 5.10 Variations in long-run average cost curves (LRACs).
Organizational and technical constraints make the optimal level of
output vary according to the characteristics of the industry and the
firm as it tries to achieve economies of scale and avoid diseconomies
of scale.
So far, we have been concerned with intrafirm scale economies, that is, within one company. However, scale
economies also apply to clusters of firms in the same or
related industries—for example, the computer firms located
in California’s Silicon Valley. By clustering, unit costs can
be lowered for all firms, in ways that could not occur if
they were spatially separate. These economies, called
agglomeration economies, take several forms.
Production linkages accrue to firms locating near
other producers that manufacture the same basic raw
materials. By clustering, distribution and assembly costs
are reduced. Service linkages occur when enough
small firms locate in one area to support specialized
services. The advertising industry in New York offers an
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The World Economy: Geography, Business, Development
example (Figure 5.11). Advertising agencies must cluster
within a short distance of Madison Avenue in order to
avail themselves of the dense networks of interfirm linkages to be found there, including information and gossip
on the latest trends, markets, clients, hires, and products.
For a firm to be successful, it must be near this complex;
otherwise, it might as well be on the other side of the
moon.
In addition to production and service linkages, there
are marketing linkages, which occur when a cluster is
large enough to attract specialized services. The small
firms of the garment industry in New York City have collectively attracted advertising agencies, showrooms, buyer
listings, and other aspects of finished-product distribution
that deal exclusively with the garment trade. Firms within
the cluster have a cost advantage over isolated firms that
must provide these specialized services for themselves or
that must deal with New York City firms at a considerable
distance and cost.
Central
Park
East River
Ninth Ave.
57th St
34th St.
Fifth Ave
23rd St.
First Ave.
Madison Ave.
42nd St.
14th St.
son
Hud
.
St.
Houston St
Hud
Canal St.
son
r
Broadway Ave.
Rive
0
1 kilometer
Cities provide markets, specialized labor forces and
services, utilities, and transportation connections, as well
as access to specialized information. Clusters of production thus arise from the numerous interconnections of people, goods, services, and information that stitch individual
entrepreneurs, firms, their supplier networks, ancillary
services, and related institutions together. In addition to
firms, other entities in clusters may include government
agencies and offices, public/private partnerships, trade associations, universities, legal services and patent attorneys,
accounting firms, specialized advertising firms, and related
ancillary services.
Clusters arise because the creation of new knowledge
and products in a constant process of innovation typically
takes place within the confines of small geographic areas.
Agglomeration is essential to the creation of knowledge,
typically through the interactions of skilled individuals, and
to the production of synergies, the positive aspects of interaction, such as new ideas, processes, and products that
would be unlikely to arise from firms or individuals acting
in isolation. Organizational learning and knowledge transfer occur most effectively when firms are in close physical
proximity, whether they are rivals or collaborators. Both
situations are essential to the generation of an entrepreneurial and creative dynamic. The process of discovery and
innovation is closely related to collaborative relationships,
networking, and tight spatial linkages among firms and
individuals. In essence, knowledge spillovers rely on frequent, repeated, and sustained interactions among individuals and firms in a given location, which creates synergies:
interactions that generate benefits (i.e., ideas) that would
not be possible if actors (firms, individuals) operated in isolation (i.e., the combined effect is greater than the sum
of the parts). The synergistic benefits of agglomeration
are often labeled “positive external economies of scale”
(i.e., external to an individual firm) in that they lower production costs in ways that would not be possible if firms
and workers were geographically dispersed. Thus, in most
economic sectors, research and intellectual activity are
concentrated in or near large metropolitan areas, whereas
unskilled, low-wage occupations that involve little creative
activity (e.g., branch plants, back offices) tend to disperse
to smaller towns. Urbanization economies, therefore,
are a combination of production, service, and marketing
linkages concentrated at a particular location.
Evaluation of Industrial Location Theory
Advertising firms
in New York City
FIGURE 5.11 Advertising agencies in Manhattan must cluster near
Madison Avenue to achieve the agglomeration economies so
essential to labor-intensive, information-intensive, white-collar,
high-value-added functions such as producer services.
Are industrial location patterns rational? Do firms always
search for optimal locations? What factors shape their
decisions? Do they make mistakes?
From the perspective of behavioral geography, the
main defect of normative industrial location theory is that
it fails to describe what decision makers actually do. How
do enterprises actually select profitable sites for branch
plants? Economic geographers often find that the behavior
of corporate executives does confirm the validity of
the framework of locational search, learning, and choice
Chapter 5 • Theoretical Considerations
143
FIGURE 5.12 The classical principles of
industrial location theory are evidenced
in the river valley and railroad site of
Bethlehem Steel Corporation’s plant at
Bethlehem, Pennsylvania. This huge plant,
which extends for nearly 8 kilometers
along the south bank of the Lehigh River,
converts raw materials—Appalachian
coking coal and Minnesota iron ore—into
structural shapes, large open-die and
closed-die forgings, forged steel rolls,
cast steel and iron rolls, ingot molds, and
steel, iron, and brass castings. The main
market for the steel products is the
American Manufacturing Belt with its
abundance of metal-using industries.
evaluation (Figure 5.12). The first phase of the decisionmaking process is the recognition that a growth problem
exists with respect to demand. The possible responses are
in situ expansion, relocation, acquisition, or construction
of a new plant. A new plant involves a three-stage search
procedure, the outcome of which leads to a decision and,
finally, to the allocation of resources. The process also
generates feedback into learning and decision-making
behaviors. Classical industrial location theory tends to be
static and ignore the time horizon within which firms
operate: it is important to distinguish between the organization’s short- and long-term responses. The behavioral
approach is much more realistic in that it recognizes that
the environment in which the enterprise operates is in a
constant state of flux.
Location theory may be evaluated by comparing optimal patterns against real-world ones. The final location
chosen by an industry is not always determined by transportation costs, as was Weber’s principal conclusion, nor
by production costs at the site, including land, labor, capital,
and managerial and technical skills. There are several
factors that complicate locational decisions:
1. A firm may have more than one critical site or situation factor, each of which suggests a different location.
2. Even if a firm clearly identifies its critical factor, more
than one critical location may emerge.
3. A firm cannot always precisely calculate costs of
situation and site factors within the company or at
various locations due to unknown information.
4. A firm may select its location on the basis of inertia
and company history. Once a firm is in a particular
community, expansion in the same place is likely to
be cheaper than moving to a new location.
5. The calculations of an optimal location can be
altered by a government grant, loans, or tax breaks.
6. Noneconomic factors play important roles in
footloose industries that have gravitated to coastal
areas in the Sunbelt of the United States because of
recreational opportunities and other amenities.
Structuralists have also criticized industrial location
theory because it focuses on individual firms as abstract
entities, without embedding and contextualizing them
within the rest of the economy. For structuralists, locational
analysis begins at the top, with the world’s capitalist system,
not at the bottom, with individual firms. The actual behavior of the individual firm only takes on meaning in the
broader economic context of the class relations and
the historical dynamics of capitalism as an integrated system.
Working up from the bottom can explain neither the individual elements nor the system as a whole. According to
structuralists, then, industrial location theory is unrealistic
because it focuses on only a small part of reality, that is,
the firm, at the expense of the broader organization of
society, power, and class. This criticism extends to the new
approaches in location theory in which the simple conception of the single-plant firm has been replaced by a model
of the firm as a complex organizational structure.
HOW AND WHY FIRMS GROW
Most large companies operate at the maximum scale possible on the LRAC curve. In fact, evidence of increasing
returns to scale has led to a reappraisal of the theory of the
firm. The tendency toward increasing scales of operation
is therefore based on the motivating force of growth. Firms
expand for two reasons: survival and growth. Both goals
are promoted by horizontal and vertical expansion and by
diversification.
The view that corporate growth is part of a natural
progression is overly deterministic, however, and it flies
in the face of reality. The majority of firms in an economy
remain small and peripheral. Only some firms, especially
those that manufacture capital goods, have the potential to
develop into large corporations. Financial barriers (i.e., lack
144
The World Economy: Geography, Business, Development
of investment capital and necessary information and management skills) prevent most firms from making successive
transitions from a small, regional base to larger, national
organizations and then to multinational operations. Access
to finance—banking capital, venture capital, and international bond and currency markets—has become increasingly uneven, favoring some firms and not others. Because
these gaps in financial access have become wider, a small
firm has much less of a chance of evolving into a corporate
giant today than it did a hundred years ago.
How a firm grows depends on the strategy that it
follows and the methods that it selects to implement its
strategy. As we discussed earlier in the chapter, growth
strategies are either integration or diversification. In the
United States, horizontal integration predominated from
the 1890s to the early 1900s, vertical integration came to
the fore in the 1920s, and diversification has been the principal strategy since the 1950s. This three-stage sequence
provides a framework for understanding the interrelationship of the various strategies. The early growth of large
enterprises involves the removal of competition by absorption, leading to oligopoly. This is followed by a period in
which the oligopoly protects its sources of supply and
markets by vertical integration, buying firms “upstream”
and “downstream” in the production process. Once a
dominant position is achieved, rapid corporate growth can
proceed only with diversification.
Methods for achieving growth are internal or external
to the firm. Growth can be financed internally by the retention of funds, taking out loans, or by issuing new shares of
stock. Or it can be generated externally by acquiring the
assets of other firms through mergers. Most large firms
employ both means, but external growth is particularly
important for the largest and fastest-growing enterprises in
industries such as biotechnology and electronics.
Whatever strategy and method are adopted, corporate
growth typically involves the addition of new factories
and, thus, a change in geography. Initially, much of the
employment and productive capacity of a firm concentrates in the area in which it was founded. As enterprises
grow, they become more widely dispersed multiplant operations, which is sometimes accompanied by decreasing
dominance of the home region. Exceptions tend to be
companies confined to one broad product area and based
in a region where there is historical specialization within
that product area.
The choice of growth strategy affects corporate geography. Horizontal integration frequently involves setting
up plants over a wider and wider area. The geographic
consequences of vertical integration vary according to
whether the move is backward (“down” in the production
process) or forward (“up” in the production process).
Backward integration, in which a firm takes over operations previously the responsibility of its suppliers, can lead
a firm into resource-frontier areas. An example is the development of iron-ore deposits by U.S. and Japanese companies in Venezuela and Australia. Conversely, forward
integration, in which a firm begins to control the outlets
for its products, can lead a resource-based organization to
set up plants in market locations. Diversification does not
have such predictable consequences for the geography of
large enterprises.
The method of growth also affects the geography of
multiplant firms. When growth is achieved internally, enterprises can carefully plan the location of new branch
plants. When growth is achieved externally, enterprises inherit facilities from acquired firms; hence, there is less control over their locations. Moreover, the attractiveness of
new facilities often lies in their economic, financial, and
technical characteristics. Nonetheless, geography does
play a role in the decision process. Firms typically confront
the uncertainty and risk of expansion by investing first in
geographically adjacent or culturally similar environments.
Geographers have developed models of how firms
grow. Most of these models postulate a single development path beginning with a small, single-plant operation
and culminating with the multinational enterprise. As we
have mentioned, this kind of evolution along a path from
a local to a national and then to an international company
is exceptional. Unequal access to finance makes it difficult,
if not impossible, for many firms to expand beyond the
subnational scale. In the late twentieth century, the size
distribution of firms resembles a broad-based pyramid in
which fewer and fewer firms can move from one level to
another. Rather than the single developmental sequence
that may have existed in the nineteenth century, today
multinationals follow a distinctive path through a series of
discrete development sequences.
GEOGRAPHIC ORGANIZATION
OF CORPORATIONS
Multi-establishment, multiproduct corporations, which include headquarters, manufacturing plants, research laboratories, education centers, offices, warehouses, and distribution
terminals, have their own distinctive geographies. To appreciate the internal geography of these systems, two issues
must be considered: (1) the ways in which corporations
are organized to maximize efficiency, and (2) the influence
of hierarchical management structures on the location of
employment.
Organizational Structure
Companies organize themselves hierarchically in a variety
of ways to administer and coordinate their activities. The
basic formats are (1) functional orientation, (2) product
orientation, (3) geographic orientation, and (4) customer
orientation. A fifth format, which is a combination of at
least two of the basic formats, is called a matrix structure.
Different companies may select different formats, but all
formats are always subject to review and modification.
The organizational format that is based on various
corporate functions—manufacturing, marketing, finance,
and research and development—is illustrated in Figure
5.13. With this framework, all the company’s functional
Chapter 5 • Theoretical Considerations
(a)
(b)
HEADQUARTERS
HEADQUARTERS
Central
Staff
Ford
Function
A
Function
B
Function
C
Central
Staff
Westinghouse
Function
D
(c)
Product
Group A
Product
Group B
Product
Group C
Product
Group D
(d)
HEADQUARTERS
HEADQUARTERS
Central
Staff
Exxon
Region
A
145
Region
B
Region
C
Central
Staff
Citibank
Region
D
Customer
Group A
Customer
Group B
Customer
Group C
Customer
Group D
FIGURE 5.13 Organizational structures: (a) functional orientation, such as the Ford Motor Company; (b) product orientation, such
as Westinghouse; (c) geographic orientation, such as Exxon; (d) customer orientation, such as Citibank.
operations are concentrated in one sector of the enterprise. An example of a company with this type of organizational structure is Ford Motor Company. This form of organization works well for companies with relatively
narrow ranges of products.
Figure 5.13b illustrates the product-orientation organizational structure. For a major motor vehicle manufacturer,
product groups can be cars, trucks, buses, and farm equipment. Although a central corporate staff is needed to provide
companywide expertise and some degree of assistance,
each group also has its own functional staff. Thus, a fairly
high degree of managerial decentralization occurs. The
product-orientation format works well for companies with
diverse product lines. Westinghouse is an example of a
company organized according to this format.
A third organizational format is based on geographic
orientation—either the geographic location of customers or
of the company’s production facilities. The company is organized around regions rather than functions or products.
Under this form of organization, most or all of the corporation’s activities relating to any good or service that is
bought, sold, or produced within a region are under the
control of the regional group head, and each geographic
region is a separate profit center. This organizational format is best suited to companies with a narrow range of
products, markets, and distribution channels. It is popular
among oil companies and major money-center banks.
Some companies organize according to the types of
customers they want to serve rather than the locations
of customers. For example, commercial banks are commonly made up of personal, corporate, mortgage, and
trust departments. Alternatively, manufacturing corporations might be structured into industrial, commercial, and
governmental divisions according to the prevalent type of
customer for each group.
The various organizational structures all have advantages, but none is ideal for all companies. Indeed, it is safe
to say that these formats have drawbacks for most or all of
the companies that have adopted them. Nonetheless, a
company usually chooses one basic format as the most satisfactory structure for its needs at a particular time in its
evolution—or it creates a combination of two or more
types.
For the small, single-plant firm, strategy and production functions are not geographically separated; hence,
there is no need for an intermediate tier of coordinating
activities. As firms grow to become multilocational companies, more complex functional and spatial divisions of
labor develop. One of the best-known forms of spatial organization draws on the characteristics of large electronics
companies. Strategic functions such as research and marketing are performed at the headquarters. Coordinating
functions are dispersed to regional offices that control interdependent production facilities. This organizational
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The World Economy: Geography, Business, Development
structure represents a clear-cut distinction between the
functions of conception and execution, a division that
mirrors the distinction between nonproduction and production employment.
Administrative Hierarchies
A large proportion of the employees of large corporations,
even those primarily involved in manufacturing, perform
nonproduction activities. This proportion is increasing
because of the substitution of capital for labor and because of the growth of various activities associated with
administration, management, research, advertising, finance,
legal services, and so forth. The ratio of nonproduction to
production employment is less important from a geographic perspective than is the relative location of these
activities.
Strategic head-office functions tend to cluster in a
relatively few large metropolitan areas, especially in the
case of huge firms with a financial orientation rather than
a production orientation. Headquarter functions rely heavily on access to other firms, including clients, suppliers,
advertisers, repair and maintenance, and specialized law
firms, and the agglomeration economies of large cities.
Many of these functions require face-to-face contacts and
business meetings. The contribution of head-office establishments to nonproduction employment within corporations
has more strategic than numerical significance.
ECONOMIC GEOGRAPHY AND SOCIAL
RELATIONS
Because economic geography includes analysis of how
firms locate and behave in space, it is necessary to embed
firms in their social and historical contexts. From the political economy perspective, production is a social, not purely
an individual, process.
The crucial social relation of production is between
owners of the means of production and the workers
employed to operate these means. Under capitalism, the
means of production are privately owned, which divides
people into owners of capital and those who must sell
their labor power in order to survive. Owners of capital—
the capitalist class that came to power beginning in the
sixteenth century (Chapter 2)—control the labor process
and extract surplus value through the exploitation of
workers. Competitive relations exist among owners; cooperative and antagonistic relations emerge between owners
(capital) and workers (labor).
mize costs, which means the extreme specialization of
labor and subordination of workers to machine automation. It demands large-scale production to lower costs and
to control a segment of the market. It also entails the
acquisition of linked or competing companies and the
investment of capital in new technology and in R&D.
Competition is the source of capitalism’s immense success as a mode of production. But the tensions that arise
between opposing elements cannot be solved without
fundamental change. Consider, for example, the critical
environmental issues generated by the contradiction
between capitalism and the natural environment. For productive forces to continue to expand without a reduction
in living standards, new values must be built into the production system. The use of renewable energy sources and
the imposition of pollution controls are evidence of these
new values.
Relations between Capital and Labor
The relations between capital and labor are both cooperative and confrontational. Without a cooperative workforce,
production is impossible. However, cooperation is often
subsumed by antagonism.
Because producers make decisions according to their
desire to make profits, they try in every way possible to
pay workers only part of the value produced by their labor.
Value produced by workers in excess of their wages—
called surplus value—is the basis for profit. This view
emphasizes the dynamics of the workplace and the labor
process rather than of supply and demand in the market.
Workers try to increase their wages in order to enjoy a
higher standard of living. They sometimes organize into
unions and, if necessary, strike to demand higher wages. If
management agrees to meet labor demands, cooperative
relations may exist for a time before antagonistic relations
resume.
Competition forces management to invest in technology
and research to increase productivity. As production increases, the struggle between employers and employees
puts higher wages into the workers’ hands. Machines and
low-wage labor can replace high-wage labor. Low-wage
peripheral regions can sell products to high-wage center
regions. Industrial migration to the periphery removes jobs
in the center, which disciplines organized labor. Pressures
to increase wages slacken, and mass demand decreases.
A problem of underconsumption develops. Thus, in capitalism, the solution to one problem may be the breeding
ground for new problems.
Competition and Survival in Space
Relations among Owners
Capitalists make independent production decisions under
competitive conditions. An appreciation of capitalist development requires understanding that a raw competitive
struggle for survival is fundamental to it. Competition
requires producers to apply a minimum of resources to
achieve the highest output. It forces companies to mini-
Relations among owners and between capital and labor
are sources of change in the geography of production.
Competition among owners may cause a company to relocate all or parts of its operation to a place where it can
secure low-wage labor. From the company’s perspective,
this strategy is mandatory for survival; if other companies
lower their costs and it does not, it will inevitably lose in
Chapter 5 • Theoretical Considerations
the competitive struggle. Capitalists must expand to survive, and the struggle for existence leads to the survival of
the biggest. In their search for profits, giant corporations
have extended their reach so that few places in the world
remain untouched.
The incessant struggle of companies to compete
successfully is especially evident in the entrepreneurial
response to differential levels of capital–labor conflict.
Old industrial regions of the core—Europe, North
America—have high conflict levels. In contrast, peripheral regions have various combinations of lower conflict
levels and lower wages. Organized labor in the old
industrial areas induced the owners of capital to switch
production and investment to countries that were not yet
industrialized or to newly industrializing countries. The
reason that mobile capital could avoid the demands of
organized labor was the development of productive
forces—an increased ability to traverse space and conquer the technical problems of production—and the
emergence of a huge alternative labor force in the developing world following the colonial revolutions in Asia,
Africa, and the Caribbean.
These dramatic changes in the 1970s and 1980s
ended the original international division of labor that
was formalized in the late nineteenth century. Under the
old imperial system, the advanced powers were the industrialists and the colonies were the agriculturalists and
producers of raw materials. After decolonization, light
industry and even some heavy industry began to emerge
in the former colonies, assisted by the advanced
economies. The increasing globalization of production
was accompanied by a new international division of
labor. The world became a “global factory,” in which the
developed countries produced the sophisticated technology and the developing countries were left with the bulk
of the low-skill manufacturing jobs. The emergence of
the international division of labor, mainly a consequence
of the activities of the footloose multinational corporations, resulted in deindustrialization in the old industrial
regions of the advanced economies and a precarious
export-led industrial revolution in parts of the developing world.
THE PRODUCT CYCLE
Product cycles help us to appreciate the importance of
technological considerations in corporate spatial organization. The product life cycle, which begins with a product’s development and ends when it is replaced with
something better, is important geographically because
products at different stages of production tend to be manufactured at different places within corporate systems.
Moreover, at any given stage of the cycle, the various
operations involved in the manufacture of a product such
as a camera are not necessarily concentrated at a single
factory. For example, production of a camera’s complex
components occurs at a different place from where the
final product is assembled.
147
Sales of Innovating Firm
Sales of Innovating Firm
Plus Competitors
Sales
Monopoly Phase
Patent
First
Sales
Initial
Idea
Heavy
Entry of Mass Production Product Begins to
Promotion Competitors
Be Superseded
Stage 1
Stage 2
Stage 3
Research and Growth
Maturity
Decline
Development
Time
FIGURE 5.14 A typical product life cycle. Stage 1 is the monopolistic
phase in which initial discovery and development are followed by
the commercial launching of the product. Rapid sales ensue. The
company may enjoy a monopoly during this period, at which time
it attempts to improve the product. Stage 2 is characterized by
the entry of competition. Emphasis is now on mass-produced,
inexpensive items that are standardized and intended to expand
the market. Competition begins to erode a large share of the
innovating firm’s sales. In Stage 3, a large share of the market has
been lost to new products and other companies. Overall sales of
the product decline as alternative products and manufacturing
processes are introduced.
The famous economist Simon Kuznets developed the
concept of the three-stage product cycle (Figure 5.14). In
Stage 1, innovators discover, develop, and commercially
launch a product. They also benefit from a temporary monopoly and all the special privileges—high profits—that
result from it. In Stage 2, competitors buy or steal the new
idea, which forces an emphasis on low-cost, standardized,
mass-production technologies. Sales of the product increase for a while, but the initial high returns diminish. By
Stage 3, the product begins to be superseded. Markets
are lost to new products, and manufacturing capacity is
reduced.
Innovation begins in an advanced industrial country.
These countries have the science, the technology, and the
internal market to justify R&D. As a result, they also have
an international advantage, and they export their product
around the world. But as the technology becomes routinized, other producers appear on the scene, first in the
other advanced countries, then on the periphery.
Meanwhile, back in the rich country, investment in the
newest generation of sophisticated technology is the cutting edge of the economy. There is no doubt that developed countries are the innovators of the world economy
and that less developed countries increasingly specialize in
the task of transforming raw materials into commodities.
But developed countries are also engaged in activities associated with the second and third stages of the product
cycle. Indeed, Britain and Canada have expressed concern
about their recipient status, a concern that has also been
voiced in the United States.
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The World Economy: Geography, Business, Development
Not all manufacturing operations are fragmented.
Corporate branch plants are often clones, supplying identical
products to their market areas. For example, medium-sized
firms in the clothing industry often have this structure, as
do many multiplant companies manufacturing final consumer products. Part-process structures tend to be associated with certain industrial sectors, such as electronics and
motor vehicles, characterized by complex finished products
comprising many individual components.
Labor is an important variable in the location of
facilities that make components. Manufacturers seek locations where the level of worker organization, the degree
of conflict, and the power of labor to affect the actions
of capital are more limited than in long-established
production centers such as Detroit, Coventry, and Turin.
Starting in the 1970s, Fiat began to decentralize; part of
the company’s production was moved away from its traditional base in Turin to the south of Italy. Compared
with the workers of Turin, who were relatively strong
and well organized, the workers of the south were new
to modern industry and had little experience of union
organization. At the international level, Ford adopted a
similar tactic when it invested in Spain and Portugal in
the 1970s. Ford management perceived that it could
operate trouble-free plants in a region of low labor costs.
The labor factor is further emphasized by the practice of
dual sourcing. To avoid total dependence on a single
workforce that could disrupt an interdependent produc-
tion system, companies are often willing to sacrifice
economies of scale for the security afforded by duplicate
facilities in different locations.
BUSINESS CYCLES AND
REGIONAL LANDSCAPES
Capitalism is a society and economy notorious for its instability. The history of capitalist economies is replete with
boom-and-bust periods—epochs of rapid growth, high
profits, and low unemployment followed by periods of
crisis, economic depression, bankruptcies, and high unemployment. Why does this instability exist? How does it
affect national, regional, and local economies?
The most famous depiction of this process is that of
Kondratiev cycles, named after the Soviet economist
Nikolai Kondratiev, who first identified them in the 1920s.
Examining historical data on changes in output, wages,
prices, and profits, Kondratiev hypothesized that industrial
countries of the world experienced successive waves of
growth and decline since the beginning of the Industrial
Revolution. Based on the emergence of key technologies,
these long cycles have a periodicity of roughly 50 to 75
years’ duration (Figure 5.15). The reasons that underlie the
duration of these waves reflect long-term trends in the rate
of capital formation and depreciation; as fixed capital
investments reach the end of their useful economic life,
Major New Technologies
Steam Energy
Cotton Cloth
Iron
Railroads
Steel
Electricity
Telephone
Automobiles
Microelectronics
Synthetic Materials
Petrochemicals
Information Technology
Gene Bioengineering
Virtual Reality
2020?
?
1970
Indices of Economic Activity
1910
?
1855
1800
60 years
60 years
60 years
?
60 years
?
First Kondratiev
1800
Second
Kondratiev
1850
Third Kondratiev
1900
Fourth Kondratiev
1950
Fifth Kondratiev
2000
2050
FIGURE 5.15 Kondratiev waves of economic activity. Kondratiev waves last approximately 50 years each and have four phases of
activity, including boom, recession, depression, and recovery. Each period of economic activity has major technological breakthroughs
associated with it that power economic growth and employment. On the horizon, the world appears to be entering a new boom
cycle based on information technology, biotechnology, space technology, energy technology, and materials technology.
Chapter 5 • Theoretical Considerations
the drag on productivity they create generates incentives
to search for new technologies.
The first Kondratiev wave, at the dawn of the
Industrial Revolution, was centered on the textile industry
and lasted from roughly 1770 to the 1820s, when the West
was swept by a series of recessions, bankruptcies, and
bank failures. The second wave, focused on railroads and
the iron industry, originated in the 1820s, peaked in the
1850s, and ended in the great round of consolidation in
the 1880s and 1890s, particularly the depression of 1893,
the second worst in world history. The third wave, associated with Fordist industries such as automobiles but also
including electricity and chemicals, arose at the end of the
nineteenth century, peaked around World War I, and collapsed suddenly during the Great Depression of the 1930s
(Chapter 7). The fourth Kondratiev wave, which was
propelled by World War II, peaked in the 1960s, corresponded to the postwar wave of growth, and included
major propulsive industries such as petrochemicals and
aerospace; it ended with the petroshocks of the 1970s.
Many believe that we are living in the midst of a fifth
wave that started in the 1980s and is centered around
services.
Joseph Schumpeter, a famous German economist, explained Kondratiev’s observation in terms of technical and
organizational innovation. Schumpeter suggested that long
waves of economic development are based on the diffusion of major technologies, such as railways and electric
power. Throughout capitalist history, innovations have
significantly bunched together at certain points in time,
often coinciding with periods of depression that accompany
world economic crises.
Simon Kuznets described Kondratiev cycles in terms
of successive periods of recovery, prosperity, recession,
and depression. The upswing of the first cycle was inspired by the technologies of water transportation and the
use of wind and captive water power; the second by the use
of coal for steam power in water and railroad transportation and in factories; the third by the development of the
internal combustion engine, the application of electricity,
and advances in organic chemistry; and the fourth by the
rise of the chemical, plastic, and electronics industries. In
the present period of world economic crisis, with higher
energy costs, lower profit margins, and the growth of
the old basic industries exhausted, scholars are asking
whether a fifth wave is under way.
Information Technology: The Fifth Wave?
Some scholars argue that a fifth Kondratiev cycle began in
the 1980s, and is associated with information technology.
Information technology production is based on microelectronic technologies, including microprocessors, computers,
robotics, satellites, fiber-optic cables, and information
handling and production equipment, including office
machinery and fax machines. Information technology,
production, and use is strong in Japan, in East Asian
149
newly industrializing countries, in the United States and
Canada, and in Western Europe, notably Germany, Sweden,
and France.
Information technology arises from the convergence
of communications technology and computer technology.
Communications technology involves the transmission of
data and information; computer technology is concerned
primarily with the processing, analysis, and reporting of
information. A new techno-economic paradigm does seem
to be emerging based on the extraordinarily low costs of
storing, processing, and communicating information. From
this perspective, the late twentieth century saw a prolonged period of social adaptation to the growth of this
new technological system, which is now affecting virtually
every part of the economy, not only in terms of present
and future employment and skill requirements but also in
terms of future prospects.
Leading the contemporary wave are business services
such as advertising, purchasing, auditing, inventory control, and financing (producer services) (Chapter 8). The
defining characteristic of these new services is that they
create and manipulate knowledge products in almost the
same way as the manufacturing industries that peaked in
earlier waves transformed raw materials into physical
products. Producer services have become a salient force in
the new postindustrial society and the information economy.
They are restructuring the geography of manufacturing,
because they are the basis of increases in productivity—
technological innovation, better resource allocation through
expert systems, increased training and education. As a result,
a new geography of world cities has emerged: a command
and control economy centered on world cities such as New
York, Los Angeles, London, Paris, Tokyo, Hong Kong, and
Singapore.
Business Cycles and the Spatial
Division of Labor
The spatial dimensions of business cycles are complex and
important; they reveal that uneven development in time
and space are two sides of one coin. Uneven development
in space occurs through the specialization of production in
different areas, including the comparative and competitive
advantages that regions enjoy at different moments in time
(see Chapter 12). Given the fluidity of capitalism, however,
there is no reason for a region or a country to enjoy its
production advantages indefinitely. Capital, labor, and information move across space, changing the conditions of
profitability in different places. Put differently, uneven development in time is manifested when a region’s or a nation’s
comparative advantage is created and lost as capital creates
and destroys regions over successive business cycles. The
loss of comparative advantage makes a region attractive to
firms: It offers pools of unemployed, and hence cheap,
labor; an infrastructure; and often other advantages as
well. In short, regions abandoned by capital may be ready
to be recycled for a new use.
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The World Economy: Geography, Business, Development
Over different business cycles, several industries may
locate in one region, each leaving its own imprint on the
local landscape. Each constructs a labor force, invests in
buildings, and shapes the infrastructure in ways that suit its
needs (and profits). From the perspective of each region,
therefore, business cycles resemble waves of investment
and disinvestment. Each wave, or Kondratiev cycle, deeply
shapes the local economy, landscape, and social structure
and leaves a lasting imprint on a region that is not easily
erased. For example, the textile industry in New England
created its industrial landscape in the nineteenth century,
ranging from small mills located on streams to the large
factories in Lowell, Massachusetts, or Manchester, New
Hampshire. These landscapes, including the people who
inhabit them, persisted long after the industry abandoned
New England for the South in the early twentieth century.
For many years, New England was a relatively poor part of
the country, with high unemployment rates. By the 1980s,
however, a new wave of production—the electronics
industry—had concentrated in the region. Firms producing
computer hardware and software found the human
resources and the Route 128 corridor of the Boston metropolitan region attractive, and the local geography of this
industry was shaped to no small extent by the residues of
earlier ones.
In short, each set of investment/location decisions in a
region is prestructured by earlier sets of decisions. Thus, as
their comparative advantage changes, regions accumulate
a series of different imprints: Each wave is shaped by and
transforms the vestiges of past waves. Thus, regions are
unique combinations of layers of investment and disinvestment over time. Such an approach explains the unique
characteristics of places through their economic histories.
Because capitalism constantly reproduces spatial inequality
by diverting capital from low-profit to higher-profit regions, individual places are perpetually open to the lure
of new forms of investment and vulnerable to the risk of
being abandoned by capital. This view allows us to integrate the specifics of regions with broader understandings
of capitalist processes.
THE STATE AND ECONOMIC GEOGRAPHY
Contrary to widespread popular opinion, the economic
landscapes of capitalism are not simply the products of
“free markets,” but also involve the role of the state
(government in all its forms and functions). In noncapitalist societies, particularly feudalism, the state was the
major allocator of resources; there was, effectively, no
division between public and private power. Under capitalism, markets are the primary means through which
decisions are made to hire people, use land, or determine how to utilize capital, but they are not the only
means. The state does what no individual or firm can do,
tackling problems too big for private firms and providing
necessary, but unprofitable, services. Given the long involvement of the state—often obscured by notions of a
mythical “free market” that has never existed in fact—
capitalism could never survive without the state. Even
the most unfettered of markets, for example, such as a
garage sale, presupposes the existence of state-generated
money, property rights, and infrastructure such as a road
system.
The degree of state involvement varies historically
and geographically—it waxes and wanes depending on
the political forces and economic imperatives at work—
but it is never zero. In the nineteenth century, particularly
in the United States, state involvement was considerably
less than it is today; there were few public services, for
example, although the federal government did subsidize
railroads and erect tariffs against imports. Starting with
the Great Depression of the 1930s, when the market
generated extreme suffering for millions of people, the
role of the state changed; it became the so-called “welfare state,” offering numerous social protections and
safeguards (e.g., Social Security, minimum wage). Since
the late twentieth century, under the pressure of globalization, the welfare state has retreated around much of
the world, particularly in the United States, and has been
replaced by a deregulated, “neoliberal” governmental
concept based on the premise that the market is
the optimal way of allocating public as well as private
resources. Any account of how economic landscapes
are produced, therefore, must include some understanding of the role of the state. Several dimensions are
sketched here.
One way that states shape economies is through the
creation and enforcement of a legal system. Laws, which
carry the moral authority of right and wrong, also act economically to protect property rights. Without the right
to buy and sell, to have assets secured against forcible
appropriation, markets would simply not exist. The development of capitalism thus entailed a secularized legal
system. Laws and regulations encompass a vast array of
activities that both constrain behavior and protect some
parties from the actions of others, including, to take but a
handful, health and safety regulations (e.g., environmental
protection, workplace safety rules, restaurant inspections),
antidiscrimination ordinances, and antitrust laws. The
state enforces laws through the police, judiciary, and the
military and maintains a monopoly over the legal use of
violence.
The state is also heavily involved in setting fiscal and
monetary policy. Fiscal policy—which determines how
governments spend their money—has enormous impacts
on localities throughout a nation-state. In the United
States, for example, the federal government’s budget is
more than $2 trillion annually. Governments collect revenues through a variety of taxes and fees, the most important of which in the United States are individual income
taxes, but taxes also include the less important social
insurance payroll tax and corporate income taxes (the latter generate only 12% of the U.S. government’s revenues);
see Figure 5.16. National governments also control the
money supply, which in turn affects inflation and interest
and exchange rates, all of which have geographically
Chapter 5 • Theoretical Considerations
Corporate
income
tax 12%
Other
4%
Excise
taxes
3%
Social insurance
payroll tax 36%
Individual
income tax
45%
FIGURE 5.16 Origins of federal government tax revenues, 2008.
Government receipts come in a variety of forms, but primarily
from individual income taxes. Generous tax cuts for corporations
have reduced their share to 12%. Although taxes are not the most
important locational consideration for firms, they constitute a
flow of resources among classes and regions, finance public sector
activity, and represent one of many ways in which the state shapes
economic landscapes.
151
uneven consequences, in highly complex ways. Almost all
nations use a national bank to manage their money supply; in the United States, it is the Federal Reserve System
(Chapter 8).
Government expenditures, which are uneven across
the landscape, have huge impacts on local areas, generating jobs, subcontracts, revenues, and profits. In some
cases—Washington, DC, for example—entire metropolitan
regions exist due to these expenditures. Public outlays include transfer payments. In the United States, these include
Social Security, veterans’ benefits, and other entitlement
programs. The U.S. and other governments also subsidize
producers of many goods, particularly agricultural and
dairy products, spending far more on corporate welfare
than on aid to poor people.
The state has a huge impact on economic landscapes
through the construction of an infrastructure, including
transportation and communication networks (roads, highways, bridges, airports, ports), water and electrical supply
systems, hydroelectric dams, sewers, and the like. Without the
infrastructure, the circulation of people, goods, and ideas
that is fundamental to markets would be impossible. Thus,
the U.S. Federal Interstate Highway System (Figure 5.17),
the largest project the federal government has undertaken,
plays an enormous role in facilitating the movement of
0
0
200
200
400 MILES
400 KILOMETERS
FIGURE 5.17 The Federal Interstate Highway System. Infrastructure is a hugely important form of state intervention in capitalist
societies. The Interstate Highway System, the largest project the U.S. federal government ever undertook, has facilitated a dramatic
time-space compression among American cities. Like most such projects, its costs are born publicly while the benefits are appropriated
privately.
The World Economy: Geography, Business, Development
152
FIGURE 5.18 Hydroelectric dams, such as the Hoover Dam pictured
here, are large, expensive projects that illustrate the state’s role in
the construction and maintenance of the infrastructure.
ME
WA
MT
ND
VT
MN
OR
NY
WI
ID
SD
CT
MI
WY
PA
IA
OH
NE
NV
IL
IN
WV
VA
CO
MO
KS
RI
NJ
MD
UT
CA
NH
MA
DE
D.C.
KY
NC
TN
OK
AZ
SC
AR
ATLANTIC
OCEAN
NM
MS
PACIFIC
AL
GA
OCEAN
TX
LA
FEDERALLY OWNED
LANDS, 2005
(Percent of Total Land Area)
HI
0
0
400 MI.
FL
50.0 and over
400 KM.
AK
0
400 MILES
0
400 KILOMETERS
0
0
200
200
400 MILES
400 KILOMETERS
20.0–49.9
10.0–19.9
5.0–9.9
less than 5.0
FIGURE 5.19 Federally owned lands. The federal government owns roughly 40% of the nation’s territory, especially in the West,
in many forms, including national parks, highways, forests, and military facilities.
Chapter 5 • Theoretical Considerations
people and goods among the nation’s cities. Public services
also include public education, public health services and
hospitals, fire and police departments, libraries and swimming pools, trash and snow removal, public transportation
and housing, parks, and so on (Figure 5.18). In the United
States, most public services are provided at the local municipal or county level; federal government services (as opposed to transfer payments) are primarily confined to the
post office and defense.
The state shapes the labor markets of capitalist societies in many ways, both directly and indirectly. In the
United States, the federal government is the nation’s
largest single employer, with more than 2 million people
in 2003 out of a national labor force of roughly 130 million. State and local government employment is even
higher, amounting to approximately 20 million in 2003.
Additionally, the state shapes labor markets through interventions such as the minimum wage; health and safety
codes; antidiscrimination rules; and regulations concerning benefits, overtime, and vacations. The state may offer
training grants and seek to generate human capital
through the education system, which in turn affects private employers.
Housing markets are another area shaped by the state.
Private housing markets are hugely affected by government-influenced interest and inflation rates. Public housing,
which in the United States amounts to only 2% of the total
housing stock, is an important resource for low-income
153
people in many cities. Zoning codes concerning population density, minimum lot size, and architectural details
affect the supply and demand for housing. In some cities,
the municipal government imposes some forms of rent
control, which typically create a market for housing at
below-market prices. More broadly, in the United States the
federal government owns 40% of the area of the whole
country (Figure 5.19), primarily in the West, for national
parks and military facilities.
Finally, the state acts as an agent in international issues.
Governments shape trade in many ways (a topic we will
explore in more depth later) in the form of tariffs, quotas,
and nontariff barriers, as well as subsidies to exporters.
Many governments attempt to manipulate exchange rates
to make their exports competitive or to improve their trade
balance. The state also controls the international movement
of labor, putting restrictions on immigration, thus affecting
the supply of workers domestically. These policies work
unevenly across the national landscape, as some regions
are more connected to the international economy than
others.
All of these examples should serve to demolish the
myth of the “free market” and demonstrate that capitalism
is a system in which both markets and the state operate
simultaneously, although not to an equal extent. Indeed,
variations in the level of state intervention are a prime
factor in explaining the different national varieties of capitalism found around the world.
Summary
In this chapter, we examined various theoretical and conceptual dimensions to the construction of economic landscapes. We began by listing the major location factors that
influence the locations of firms, including labor, land, capital,
and management skills. We noted that labor productivity
was as important as its cost. The uneven distribution of
these phenomena leads to geographically uneven patterns
in their use by firms.
The chapter described in some depth the famous
Weberian theory of location, which centers on minimization of transport costs. Classical location theory stresses
that manufacturing patterns are caused by geographic
characteristics—locational factors—rather than by underlying social relations. Assembly costs are incurred
because the raw materials required for a particular kind
of manufacturing are distributed in different places.
Production costs vary because of the areal differences in
the costs of labor and land; while the costs of capital
investments may also vary geographically, the costs of
financial capital are much more uniform due to its much
greater mobility. Finished-product distribution costs are
incurred when producers must sell to dispersed or widely
scattered markets. Classical location theory provides a
rationale for finding the points of production at which
locational costs are minimized.
The chapter discussed the behavior of firms in time
and space. Most geographers now question the usefulness
of traditional location theory in light of the multiproduct,
multiplant, multinational operations characteristic of the
modern global structure of production and consumption.
Accordingly, we devoted a portion of the chapter to the
spatial behavior of large industrial enterprises and gave
some attention to trends in industrial organization, the
relationship of large firms to small ones, the reasons for
corporate growth, and the internal geography of corporate
systems.
The chapter illustrated how firms face a choice
between their selection of a production technique, which
reflects the costs of inputs, and the scale of output, which
generates economies of scale. Few issues are as important
as economies of scale in understanding where firms locate,
the nature of the market they are in, and how they change
over time. The chapter also explored the growth of firms,
ranging from their strategies to the roles of vertical
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integration and disintegration. It also delved into the division of labor within firms, including corporate administrative hierarchies and the separation of headquarters from
production functions.
We embedded firms in their social context, pointing
out that they are always part of a broader nexus of capital
and labor relations, which may include divisions among
the owners of capital and between capital and labor. Firms
are thus not isolated decision makers floating in a world
without constraints but are part of the process of commodity production, transportation, and consumption. Capitalism
is a tremendously dynamic society beset with constant,
often wrenching, changes—in products, production processes, markets, forms of work, and locations. These
changes may be examined in light of the product cycle, a
metaphorical model that encapsulates the simultaneous
economic, technological, organizational, and geographic
changes that confront every firm in the course of its industry’s evolution.
Because the economic advantages of some regions
over others are always temporary, we stressed the cyclical
nature of capitalism, its tendency toward boom-and-bust
periods. The most famous representation of this process of
long-term episodes of growth and decline is the Kondratiev
wave. The periodicity of capitalism is reflected in the rise
of different industries at different moments in time—textiles,
steel, automobiles, electronics, producer services—each of
which is the high-tech sector of its day. The Kondratiev
model reminds us that the present world economic system
may be in the midst of a fifth upswing, this one based on
a cluster of microelectronics and information technologies.
We connected business cycles to the spatial division of
labor to understand how local landscapes are created
through the successive imposition of different layers of
investment over time.
Finally, we ended by noting that capitalism is not
synonymous with the “free market” because markets are
always and everywhere shaped by the state to one degree
or another. The state makes and enforces laws and regulations that enforce property rights; collects and spends
money; affects interest and inflation rates; generates jobs
and subcontracts and regulates working conditions; regulates land use; builds the infrastructure and provides public
services; shapes housing markets; and intervenes internationally in trade, exchange rates, and immigration. In all
these ways, and more, the state is an actor as important in
the construction of the economic geographies of capitalism
as market forces.
Key Terms
agglomeration
economies 141
backward integration 144
diseconomies of scale 141
diversification 141
division of labor 140
economies of scale 140
financial capital 134
fixed capital 134
footloose industries 143
forward integration 144
horizontal integration 141
human capital 132
industrial inertia 140
information
technology 149
integration 144
Kondratiev cycles 148
locational factors 153
mode of production 146
producer services 149
product life cycle 147
production linkages 141
scale 140
service linkages 141
social relations of
production 146
surplus value 146
urbanization
economies 142
vertical integration 141
Study Questions
1. How is labor different from other inputs that firms use?
2. What determines the amount and type of an industry’s demand
for labor?
3. Do firms always pursue the cheapest labor? Why or why not?
4. What is human capital and why is it important?
5. How does land figure into the locational calculus of firms?
6. What is capital? Differentiate between fixed and liquid capital.
7. Define the Weberian model of firm location.
8. Compare and contrast scale and agglomeration economies.
9. What is the behavioral approach to industrial location?
10. Contrast horizontal and vertical integration.
11. Compare and contrast multiplant and multiproduct enterprises.
12. What is the product life cycle model and how does it affect
the location of firms?
13. Define Kondratiev cycles.
14. How do business cycles shape local landscapes?
15. What are six ways the state affects economic landscapes?
16. Is there really such a thing as the “free market”? Why not?
Suggested Readings
Dicken, P. 2010. Global Shift: Industrial Change in a Turbulent
World, 6th ed. London: Harper & Row.
Herod, A. 1998. Organizing the Landscape: Geographical
Perspectives on Labor Unionism. Minneapolis: University of
Minnesota Press.
Knox, P., J. Agnew, and L. McCarthy. 2008. The Geography of the
World Economy, 5th ed. London: Edward Arnold.
Krugman, P. 1991. Geography and Trade. Cambridge, MA: MIT
Press.
Porter, M. 1990. The Competitive Advantage of Nations. New
York: Free Press.
Chapter 5 • Theoretical Considerations
155
Web Resources
U.S. Department of Commerce
http://www.doc.gov/
The government department charged with promoting American
business, manufacturing, and trade. Its home page connects
with the Web sites of its constituent agencies.
Bureau of Labor Statistics Web Site
http://stats.bls.gov/
Contains economic data, including unemployment rates, worker
productivity, employment surveys, and statistical summaries.
Bureau of Labor Statistics Web Site
http://stats.bls.gov/
These sites contain economic data, including unemployment
rates, worker productivity, employment surveys, and statistical
summaries.
Labor History Archives
http://www.nyu.edu/library/bobst/research/tam/
laborrefguide.html
Large collection of resources about the history of working men
and women, including labor movements, unions, biography,
and labor history.
Economic Geography Research Group
http://www.egrg.org.uk/resources.html
British Web site with information about contemporary topics in
economic geography, including books, conferences, and
more.
http://faculty.washington.edu/krumme/ebg/contents.html
A comprehensive portal to economic geography set up by Dr.
Gunter Krumme.
Census Bureau Center for Economic Studies
http://www.ces.census.gov/
The federal government’s census site contains massive amounts
of data and reports about a wide variety of demographic and
economic issues.
Log in to www.mygeoscienceplace.com for videos, In the
News RSS feeds, key term flashcards, web links, and self-study
quizzes to enhance your study of theoretical considerations.
OBJECTIVES
쑺 To describe the world’s preindustrial agricultural
forms and regions
쑺 To acquaint you with commercial agricultural
practices and world regions
쑺 To describe the agricultural policies of the
United States and their shortcomings
A succession of combines marches over a wheat field
10 miles north of Pendleton, Oregon, and south of the
little town of Helix, reflecting the enormous degree of
mechanization typical of industrialized agriculture.
쑺 To summarize sustainable agriculture as an
ecologically friendly alternative to contemporary
forms of food production
쑺 To analyze the Von Thünen model as a means
of understanding local land use patterns
CHAPTER
Agriculture
6
griculture, the world’s most space-consuming activity and one of humanity’s leading occupations, is the
science and art of cultivating crops and rearing livestock in order to produce food and fiber for sustenance or
for economic gain.
The historical distribution of agriculture has been critical to the survival and success of the human species.
Throughout the vast bulk of the span of our existence (95% or more of it), we were hunters and gatherers, not
agriculturalists; people were food collectors, not producers. The Neolithic Revolution, roughly 10,000 years ago,
witnessed the invention or discovery of agriculture, making possible a nonnomadic existence. It paved the way for a
social surplus and the rise of cities, denser social forms and more refined divisions of labor, and fostered the development of new technologies such as writing, pottery, and metal working.
Until the nineteenth century, however, agriculture produced relatively little food per worker, so most of the population worked full-time or part-time on the land. The small surplus of food released few people for other pursuits.
Not until the industrialization of agriculture that began in Europe during the past 200 years did large-scale employment
in manufacturing and service activities become possible.
The shift of labor from the agricultural sector to other sectors constitutes one of the most remarkable changes in
the world economy in modern times. In the United States and the United Kingdom, less than 2% of the economically active population now works directly in agriculture. In contrast, about 70% of the populations in a number of
African and Asian countries are engaged in the agricultural sector.
Economic geographers are concerned with problems of agricultural development and change as well as with patterns of rural land use. Where was agriculture discovered? How did it diffuse? Why do farmers so often fail to prevent
environmental problems? What are the characteristics of the main agricultural systems around the world? What is the
effect of industrialized agriculture on farmers and the countryside? What principles can help us understand the spatial
organization of rural land use? What are the consequences of government agricultural policy? In this chapter, we seek
answers to these questions.
Agriculture had a long, rich history prior to the emergence of modern capitalist food production. Medieval farming methods prevailed in Western Europe until capitalism invaded the rural manor. The rise of market forces in
agriculture transformed food into a commodity, something to be bought and sold for a profit. Land uses changed to
crops that generated the highest rate of profit and replaced subsistence agriculture with market-oriented agriculture
(Chapter 2). Open fields were enclosed by fences, hedges, and walls. Crop rotation replaced the medieval practice of
fallowing fields. Seeds and breeding stock improved. New agricultural areas opened up in the Americas. Farm
machines replaced or supplemented human or animal power. The family farm came to represent the core model of
commercial agriculture. This transformation resulted from a vast population increase in the new trading cities that depended on the countryside for food and raw materials. Another force that brought the market into the countryside
was the alienation of the manorial holdings. Lords, who needed cash to exchange for manufactured goods and
luxuries, began to rent their lands to peasants rather than having them farmed directly through feudal labor-service
obligations. Thus, they became landlords in the modern sense of the term.
A
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THE FORMATION OF A GLOBAL
AGRICULTURAL SYSTEM
By A.D. 1500, on the eve of European overseas expansion,
agriculture had spread widely throughout the Old World
and much of the New World. In Europe, the Middle East,
Africa, central Asia, China, India, and Indonesia, cereal
farming and horticulture were common features of the
rural economy. Nonagricultural areas of the Old World
were restricted to the Arctic fringes of Europe and Asia and
to parts of southern and central Africa. Agriculture had not
spread beyond the Indonesian islands into Australia.
By the time of the first European voyages across the
Atlantic, the cultivation of maize, beans, and squash in
the New World had spread throughout Central America
and the humid environment of eastern North America as far
north as the Great Lakes. In South America, only parts of
the Amazon Basin, the uplands of northeastern Brazil, and
the dry temperate south did not have an agricultural economy. These patterns of agriculture persisted until the era of
European colonial conquests. Eventually, European settlements assumed two forms: (1) farm-family colonies in the
middle latitudes of North America, Australia, New Zealand,
and South Africa; and (2) plantation colonies in the tropical
regions of Africa, Asia, and Latin America. These two types
of agricultural settlements differed considerably.
For example, farm colonization in North America depended on a large influx of European settlers whose agricultural products were initially for a local market rather than an
export market. Europeans introduced the farm techniques,
field patterns, and types of housing characteristic of their
homelands, yet they often modified their customs to meet
the challenge of organizing the new territory. For example,
the checkerboard pattern of farms and fields that characterizes much of the country west of the Ohio River resulted
from a federal system of land allocation (the Township and
Range System). It involved surveying a baseline and a principal meridian, the intersection of which served as a point of
origin for dividing the land into 6-by-6-mile townships, then
into square-mile sections, and still further into quarter sections a half-mile long. This orderly system of land allocation
prevented many boundary disputes as settlers moved into
the interior of the United States.
In tropical areas, Europeans, and later Americans
and the Japanese, imposed a plantation agricultural system
that did not require substantial settlement by expatriates.
Plantations are large-scale agricultural enterprises devoted
to the specialized production of one tropical product raised
for the market (Chapter 2). They were first developed in the
1400s by the Portuguese on islands off the tropical West
African coast. Plantations produced luxury foodstuffs, such
as spices, tea, cocoa, coffee, tobacco, and sugarcane, and
industrial raw materials, such as cotton, rubber, sisal, jute,
and hemp (Figures 6.1 and 6.2). These crops were selected
for their market value in international trade, and they were
grown near the seacoast to facilitate shipment to Europe.
Thus, plantations represent the first wave in the global commodification of agriculture. The creation of plantations
FIGURE 6.1 On the world’s largest rubber plantation, at Harbel,
Liberia, more than 36,000 hectares, or 30% of the total land area of
Liberia, are cultivated by Firestone Tire and Rubber Company. The
company has also established plantations in Brazil, Ghana, Guatemala,
and the Philippines. How do plantations benefit host societies?
sometimes involved expropriating land used for local food
crops. Sometimes, by irrigation or by clearing forests, new
lands were brought under cultivation.
Europeans managed plantations; they did little manual
labor. The plantation system relied on forced or poorly
paid indigenous labor. Very little machinery was used.
Instead of substituting machinery for laborers when local
labor supplies were exhausted, plantation managers went
farther afield to bring in additional laborers. This practice
was especially convenient because world demand for
FIGURE 6.2 A tapper on the Firestone plantation in Liberia makes
an incision in a rubber tree. The latex will flow down the incision
through a spout and into a cup attached to the tree. Some of the
latex is carried in pails by women to collecting stations. What
would this tapper do if he were not working for Firestone?
Chapter 6 • Agriculture
crops fluctuated. During periods of increased demand,
production could be accelerated by importing additional
laborers, thus making the need for installing machinery
during booms unnecessary and minimizing the financial
problems of idle capital during slumps.
The effect of centuries of European overseas expansion was to reorganize agricultural land use worldwide.
Commercial agricultural systems have become a feature of
much of the world. Hunting and gathering, the oldest
means of survival, has virtually disappeared. Nomadic pastoralists, such as the Masai of Kenya and Tanzania who
drive cattle in a never-ending search for pasture and water,
have steadily declined in numbers, often victims of the
fixed borders of the nation-state. Subsistence farming still
exists, but only in areas where impoverished farmers, especially in developing countries, eke out a living from tiny
plots of land. Few completely self-sufficient farms exist;
most farmers, even in remote areas of Africa and Asia,
trade with their neighbors at local markets.
THE INDUSTRIALIZATION OF AGRICULTURE
In the nineteenth and twentieth centuries, a third agricultural revolution took place that resolved the distinction
between family and corporate models of agriculture.
159
In other words, this revolution signified the elimination
of distinct agrarian economies and communities.
Industrial agriculture has become the dominant form in
most developed countries and is being applied to exportoriented regions of developing countries. Key elements
of industrial agriculture are extreme capital intensity,
high energy use, concentration of economic power, and a
quest for lower unit costs of production. Although industrial agriculture has increased output per unit of input, it
has also depleted water and soil resources, polluted the
environment, and destroyed a way of life for millions of
farm families.
The industrialization of agriculture drastically reduced
the number of farmers in North America. In the United
States, the number declined from 7 million in 1935 to
around 1.7 million in 2008. In Canada, 600,000 farm operators existed in 1951 but less than one-third that number
were still in operation in 2008. Europe witnessed similar
trends. In Britain, for example, a decline in the number of
farm workers has been going on for decades. Today, the
percentage of a labor force engaged in primary economic
activities (agriculture, logging, fishing, mining) is a useful
measure of economic development around the world
(Figure 6.3): Economically advanced countries have a
small share of their workers in agriculture, such as in
CASE STUDY
Agro-Foods
Food takes a long and complicated path to our tables
that involves vast networks of inputs. For example, largescale farming depends on industrial equipment such as
tractors and combines and chemical inputs such as fertilizers, animal hormones and antibiotics, and pesticides,
as well as financial networks of loans. Industrial farming
is also highly dependent on energy to run the machines,
pump water, produce fertilizer, and transport the
finished product to the consumer. Most food that we
consume in the economically developed world has been
substantially modified and processed to be made durable
through canning, freezing, or other methods. Such
processes allow the spatial separation of production from
consumption that makes long-distance trade possible.
Agriculture and industry have become so intertwined
that many foods have become known by the industrial
process that has transformed them, such as homogenized
milk, pasteurized cheese, refined sugar, and so on.
Industrial food producers have great flexibility in
their choices of farm output and where to obtain it. For
example, the manufactured food requires a sweetener, but
not necessarily sugar derived from the sugarcane plant. It
requires oil, yet not necessarily oil from corn. It requires a
starch, but that could be derived from either potatoes or
wheat or a number of other grains. The production of
potato chips provides a good example of this substitution
affect: Producers can fry the chips in whatever oil is
cheapest at the moment of production. This illustrates why
farmers are often in a disadvantaged position within the
agro-food system.
Food reaches consumers via food wholesalers and
retailers and the restaurant and catering industry.
Powerful economic entities in food distribution can
shape the agro-food system with their purchasing
power, such as when a fast-food restaurant chain decides to fry its French fries in vegetable oil or lard or
when large grocery chains decide to carry some food
products and not others.
At the end of the agro-food system is the consumer.
What we eat reflects demographic characteristics—the
size and growth of the population, purchasing power,
and social relations such as the structure of the family, for
example. Obviously, advertising greatly influences our
food choices. But more subtly, the ever-quickening pace
of the economy has led to the proliferation of “fast” foods
and other convenience foods meant to be consumed “on
the go,” in the car, or at the desk. Not only does the
changing agro-food system shape our bodies, but
its changing technology and consumer choices also have
significant impacts on our geography.
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FIGURE 6.3 The proportion of the labor force engaged in agriculture is an important measure of economic development.
In economically advanced countries, very few people are needed to generate a food supply for everyone, whereas in
developing countries a much larger share of workers is engaged in farming. (See color insert for a more illustrative map.)
North America, Europe, Japan, and Australia, whereas in
much of the developing world significant proportions of
workers are engaged in farming. In most of Africa and East
Asia, for example, more than 60% of the employed population works as peasant farmers.
Human Impacts on the Land
The emergence of agriculture and its subsequent spread
throughout the world has meant that little, if any, land still
can be considered “natural” or untouched. Almost everywhere, nature has been modified extensively by human
beings, making it difficult to speak of nature as a phenomenon separate from human impacts. Vegetation has been
changed most noticeably. Virtually all vegetation zones
show signs of extensive clearing, burning, and the browsing of domestic animals. The impoverishment of vegetation has led to the creation of successful agricultural and
pastoral landscapes, but it has also led to land degradation
or a reduction of land capability (Chapter 3).
Hunters and gatherers hardly disturb vegetation, but
farmers must displace vegetation to grow their crops and to
tend their livestock. Farmers are land managers; they upset
an equilibrium established by nature and substitute their
own. If they apply their agrotechnology with care, the agricultural system may last indefinitely and remain productive.
On the other hand, if they apply their agrotechnology carelessly, the environment may deteriorate rapidly. How
farmers actually manage land depends not only on their
knowledge and perception of the environment but also on
their relations with groups in the wider society—in the
state and the world economy.
As agriculture intensifies, environmental alteration
increases. Anthropologist Ester Boserup proposed a simple
but famous stage model of agriculture. Stage 1, forestfallow cultivation, involves cultivation for 1 to 3 years followed by 20 to 25 years of fallow. In Stage 2, bush-fallow
cultivation, the land is cultivated for 2 to 8 years, followed
by 6 to 10 years of fallow. In Stage 3, short-fallow cultivation, the land is fallow for only 1 to 2 years. In Stages
4 and 5, annual cropping and multicropping, fallow periods are either very short—a few months—or nonexistent.
Boserup noted that the transition from one form of agriculture to another was accompanied by an increasing population density, improved tools, increasing integration of
livestock, improved transportation, a more complex social
infrastructure, more permanent settlement and land
tenure, and more labor specialization.
In contrast, permanent agriculture (annual cropping
and multicropping) usually occurs in areas of high potential productivity and high population pressure. Under permanent cultivation, the land becomes totally transformed,
yet the fertility of the land may not be impaired. For example, soils of the Paris Basin have been cultivated intensively for hundreds of years and still they remain highly productive. In many parts of East Asia, carefully terraced
hillsides have maintained the productivity of valuable soil
resources for thousands of years.
In general, industrialized farming practices pose the
main danger to the environment. Clean tillage on large
fields, monoculture (the cultivation or growth of a single
crop), and the breaking down of soil structure by huge
machines are a few factors that may destroy the topsoil.
Repeated droughts and dust storms in the twentieth century
Chapter 6 • Agriculture
on the Great Plains of the United States gave testimony to
how nature and industrial agriculture can combine to destroy the health of a steppe landscape.
Agriculture threatens ecological balances when people
begin to believe that they have freed themselves from dependence on land resources. In developed countries, there
is a tendency to exploit the land as a result of pressure to
maximize profits. Corporate producers want to make land
use more efficient and productive; thus, farming is often
viewed as just another industry. However, we must
remember that land is more than a means to an end; it is
finite, spatially fixed, and ecologically fragile.
FACTORS AFFECTING RURAL LAND USE
Rural land-use patterns, which are arrangements of fields
and larger land-use areas at the farm, regional, or global
level, are difficult to understand. Worldwide, hundreds of
farm types exist. The most interesting aspect of the world’s
agricultural land-use areas or regions is not their extent but
the uniformity of land-use decisions farmers make within
them. Given any farming region, why do farmers make
similar land-use decisions? Several variables determine
land use, including site characteristics and cultural preferences and perception, which are discussed next.
Climatic Limitations
Variations in rural land use depend partly on climatic characteristics, such as soil type and fertility, slope, drainage,
exposure to sun and wind, and the amount of rainfall and
average annual temperature. Plants require particular combinations of temperature and moisture. Absolute physical
limits of the crop are “too wet,” “too dry,” “too cold,” and
“too hot.” Absolute climatic limits are wide for some crops,
such as maize and wheat, but narrow for others, such as
pineapples, cocoa, bananas, and certain wine grapes.
Cultural Preferences and Perceptions
Food preferences, often having religious origins, are one
variable affecting the type of agricultural activity at a given
site. For example, many Africans avoid protein-rich chickens
and their eggs. Hindus abstain from eating beef; Jews and
Muslims do not eat pork (Figure 6.4). Most people in East
and Southeast Asia abstain from drinking milk or eating milk
products. In the United States, a consumer preference for
meat (enhanced by the enormous lobbying power of corporate agribusiness) leads American farmers to plant a greater
proportion of their land in forage crops for animal feed than
do European farmers, who grow more food crops.
People interpret the environment through different cultural lenses. Their agricultural experiences in one area influence their perceptions of environmental conditions in other
areas. Consider the settlement of North America. The first
European settlers were Anglo-Saxons accustomed to moist
conditions and a tree-covered landscape. They equated trees
with fertility. If land was to be suitable for farming, it should,
in its natural state, have a cover of trees. Thus, the settlers of
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FIGURE 6.4 Pork-avoidance areas of the world. The pork
avoidance, or pork taboo, in North Africa and the Middle East
arose among the Jews during biblical times. Pigs were considered
unclean because of their environmental setting. Today, the Muslim
areas of the world, which subscribe to some Old Testament biblical
laws, are the largest areas of pork avoidance. India is only 15%
Muslim and therefore the majority of the population does not hold
a taboo against pork; however, the Hindu majority practices a beef
taboo in this region.
New England and the East Coast realized their expectations
of a fertile farming region. When Anglo-Saxons edged onto
the prairies and high plains west of the Mississippi River,
they encountered a treeless, grass-covered area. They underestimated the richness of the prairie soils, in particular, and
the area became known as the “Great American Desert.” In
the late nineteenth century, a new wave of migrants from the
steppe grasslands of Eastern Europe appraised the fertility of
the grass-covered area more accurately than the AngloSaxons who preceded them did. The settlers from Eastern
Europe, together with technological inventions such as
barbed-wire fencing and the moldboard plow, helped to
change the perception of the prairies from the Great
American Desert to the Great American Breadbasket.
Land degradation is a function of many variables, including the type of farming system utilized and the educational levels of land managers. In the mountains of
Ethiopia, where cultivation has been occurring for 2000 years
with a low rate of soil loss, the cumulative erosion of good
soil has resulted in a serious decline in the capability of the
land. In comparison, in the hills of northern Thailand,
where rates of soil loss are much higher, the local land
management system has compensated for soil erosion and
the capability of the land has been maintained.
However, land is sometimes devastated by land
managers—not because of ignorance or stupidity but because of the social systems that keep farmers trapped in
small plots of land, dependent on cash crops with low market prices and powerful merchants with a local monopoly
on the collection of crops for sale in the market. Local farmers may well be aware of the causes of land degradation
and attempt to combat it with fertilizers, mulching, and
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20°
Pl.
Pl.
Sub
PACIFIC
20°
Sub
SC
Pl.
OCEAN
10°
10°
Li Ra
SUBSISTENCE AGRICULTURE
Pl.
0°
140°
Shifting
cultivation
130°
120° (SC) 110°
100°
SC
90°
Equator
40°
Pl.
SC
Intensive subsistence, wet rice dominant (Sub/ri)
Intensive subsistence, wet rice not dominant (Sub)
10°
10°
Pastoral nomadism (P. No.)
10°
Pl.
Sub
Plantation (Pl.)
20°
Li Ra
COMMERCIAL AGRICULTURE
20°
20°
20°
Pl.
Tropic of Capricorn
Mixed crop and livestock (MCL)
MCL
30°
Dairy (Da.)
30°
30°
30°
Tr.
Grain (Gr.)
Med
Gr.
Livestock ranching (Li Ra)
40°
40°
40°
40°
Mediterranean (Med.)
Li Ra
Truck (Tr.)
50°
50°
50°
50°
Little or no agriculture
FIGURE 6.5 World agricultural regions. Africa, Southeast Asia, and the Amazon basin are the principal regions of shifting agriculture. Intensive
subsistence agriculture is found in East Asia, South Asia, and Southeast Asia. Plantation agriculture is primarily in tropical and subtropical
regions of Latin America, Asia, and Africa. Commercial regions include mixed crop and livestock farming, which exists primarily in the northern
Unites States, southern Canada, and central Europe. Grain cultivation exists in Argentina, the Great Plains of the United States, the plains of
Russia and Ukraine, and Australia. Livestock ranching includes areas too dry for plant cultivation, including western Canada and the United
States; southeastern South America; central Asia; and large portions of Australia. Mediterranean agriculture specializes in horticulture and
includes areas surrounding the Mediterranean Sea, regions of the southwestern United States, central Chile, and the southern tip of Africa.
Finally, truck farming—commercial gardening and fruit farming—is found in the southeastern United States and in southeastern Australia.
terracing. However, without real land reform, many peasants around the developing world are trapped in desperate
circumstances reflecting the dynamics of the global economy and oppressive national and local social structures.
SYSTEMS OF AGRICULTURAL PRODUCTION
Systems of agricultural production set their imprint on rural
land use. Like manufacturing, agriculture is carried out
according to two basic modes of production, peasant or
precapitalist systems and capitalist, commodified systems.
The major distinction between these is the labor commitment of the enterprise. In the peasant system, production
comes from small units worked entirely, or almost entirely,
by family labor. In the capitalist system, family farming is
still widespread, but labor is a commodity to be hired and
dismissed by the enterprise according to changes in the
scale of organization, the degree of mechanization, and the
level of market demand for products.
In any geographic region, one system of production
dominates the others. For example, capitalist agriculture
dominates parts of South America, whereas peasant agriculture dominates other parts. Capitalist agriculture finds
expression in a vast cattle ranching zone extending southwest from northeastern Brazil to Patagonia; in Argentina’s
wheat-raising Pampa, which is similar to the U.S. Great
Chapter 6 • Agriculture
163
ARCTIC OCEAN
P. No.
P. No.
Arctic Circle
P. No.
Sub
Sub
60°
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Tr.
Gr.
Li Ra
P. No.
Tr.
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40°
Med
Med
Med
Gr.
Sub/ri
Sub
Med
Tr.
30°
40°
Sub
Med
P. No.
P. No.
PACIFIC
P. No.
Sub
30°
Tr.
P. No.
Tropic of Cancer
Sub
SC
Sub
20°
SC
BAY OF
BENGAL
ARABIAN
SEA
Pl.
OCEAN
SC
Sub
Sub/ri
Sub
Pl.
Sub/ri
P. No.
Sub/ri
Sub
10°
SC
SC
10°
Pl.
P. No.
Pl.
Sub
0°
50°
Sub
Pl.
60°
70°
80°
SC
90°
Equator
140°
0°
Sub/ri
SC
INDIAN
Sub/ri
OCEAN
10°
Sub
SC
SC
10°
ATLANTIC
120°
Pl.
P. No.
140°
150°
160°
170°
Pl.
CORAL SEA
OCEAN
20°
20°
P. No.
Li Ra
30°
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Med
P. No.
20°
20°
Tropic of Capricorn
Li Ra
MCL
30°
30°
30°
Gr.
Sub
Gr.
Tr.
Da.
Li Ra
40°
40°
40°
40°
Da.
Da.
MCL
110°
50°
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130°
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2,000
140°
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160°
2,000
180°
3,000 MILES
3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
Plains; in a mixed livestock and crop zone in Uruguay,
southern Brazil, and south central Chile, which is comparable to the U.S. Corn Belt; in a Mediterranean agriculture
zone in central Chile; and in a number of seaboard tropical
plantations in Brazil, the Guianas, Venezuela, Colombia,
and Peru. Peasant agriculture dominates the rest of the
continent. There is shifting cultivation in the Amazon
Basin rainforest, rudimentary sedentary cultivation in the
Andean plateau country from Colombia in the north to the
Bolivian Altiplano in the south, and a wide strip of crop
and livestock farming in eastern Brazil between the coastal
plantations and livestock ranching zones.
Preindustrial Agriculture
Most of the world’s farmers, including the people of Latin
America, Africa, and Asia, practice subsistence agriculture
on a preindustrial basis. These regions have several characteristics in common:
1. The majority of workers are engaged in agriculture
instead of manufacturing or services.
2. Agricultural methods and practices are technologically
primitive. Farms and plots are small in comparison
with those of the developed world, labor is used intensively, and mechanization and fertilization are used
only infrequently. The primary energy source is animate, that is, from living human and animal muscle.
3. Agricultural produce that is harvested on the farms is
used primarily for direct consumption. The family, or
the extended family, subsists on the agricultural
products from the farm. Although in certain years
surpluses may be produced, this is rarely the case.
There are several major categories of subsistence
agriculture: peasant-based agriculture; shifting cultivation
in the tropics; pastoral nomadism in North Africa and the
Middle East; and intensive subsistence agriculture in South
and East Asia, where rice is grown (Figure 6.5).
164
The World Economy: Geography, Business, Development
PEASANT MODE OF PRODUCTION Peasant agriculture
occurs entirely in developing countries where market relations have not fully encompassed all domains of economic
life. It is relatively labor-intensive, involving endless hours
of backbreaking toil. In such societies, the bulk of the population lives in rural areas. Farmers are small-scale producers
who invest little in mechanical equipment or chemicals. They
are interested mainly in using what they produce rather than
in exchanging it to buy things that they need. Food and fiber
are exchanged, particularly through interaction with capitalist
agriculture at the global, national, and local scales, but farm
families consume much of what they produce. To obtain the
outputs required to be self-supporting, peasant farmers are
frequently willing to raise inputs of labor to very high levels,
especially in crowded areas where land is rarely available.
Highly intensive peasant agriculture occurs in the extensive
rice fields of South, East, and Southeast Asia. Most of the paddies are prepared by ox-drawn plow, and the rice is planted
and harvested by hand—millions of hands.
Another example of the peasant mode of production
exists in the semiarid zone of East Africa. This zone includes the interior of Tanzania, northeast Uganda, and the
area surrounding the moist high-potential heartland of
Kenya. As in most parts of the developing world, peasant
agriculture in this region has been complicated by the
colonial and postcolonial experience. People earn a living
by combining several activities. They eat their crops and
livestock and sell or exchange agricultural surpluses at
markets. They grow cash, or export, crops such as cotton.
They maintain beehives in the bush and sell part of the
honey and wax. They brew and sell beer. They hunt, fish,
and collect wild fruits. They earn income by cutting firewood, making charcoal, delivering water, and carrying
sand for use in construction. Some of them have small
shops or are tailors. Most important, people sell their
labor, both short term and long term, nearby and far away.
FIGURE 6.6 A scene showing
deforestation in the rainforest in Acro,
Western Brazil. Forests have been burnt
to the ground to create temporary
pastures for cattle. The nation’s rainforests
are being cut down at a rate 50% faster
today than they were 10 years ago.
Rainforest loss creates or contributes
to a number of intractable problems:
It contributes to greenhouse warming,
eliminates the cleansing of the
atmosphere, creates new semideserts,
increases large-scale flooding, and
threatens wildlife habitats.
To farm and herd successfully in the semiarid zone,
land managers must meet certain requirements set by the
environment and by the nature of crops and animals.
Livestock requires water, graze, salt, and protection from
disease and predators. To meet these needs day after day,
year after year, land managers must have considerable skill
and knowledge. They must know a great deal not only
about the ability of animals to withstand physiological
stress but also about environmental management—which
grass to save for late grazing and where and when to establish dry-season wells to enable the stock to withstand
the rigor of the daily journey between water and graze.
With respect to crops, land managers must know about
plant-moisture and nutrient needs. They must also be sensitive to the variability of rainfall.
Most of the time, this system of agriculture in East
Africa provides peasants with an adequate and varied food
supply. In bad times, there are mechanisms for sharing
hardship and loss so that those farmers who are hardest hit
can usually rebuild their livelihoods after bad times end.
However, the peasant mode of production has been
forced to adjust to pressures from governments and the
world economy during colonial and postcolonial periods,
including competing with subsidized grain imports from
countries such as the United States.
CULTIVATION Shifting cultivation, slashand-burn, or swidden agriculture is practiced in three
main tropical rainforest areas of the world: (1) the South
American Amazon region; (2) central Africa; and (3)
Southeast Asia, Indonesia, and New Guinea (see Figure 6.5).
Rainfall is heavy in these regions, vegetation is thick, and
soils are relatively poor in quality.
When shifting cultivation is practiced, the people of a
permanent village clear a field adjacent to their settlement
by slashing vegetation (Figure 6.6). After the field is cleared
SHIFTING
Chapter 6 • Agriculture
with axes, knives, and machetes, the remaining stumps are
burned. Daily rain returns the ash and nutrients to the soil,
temporarily fertilizing it. (Because of this clearing technique,
shifting cultivation is sometimes called slash-and-burn
agriculture.) The field is used for several years. At the end
of this time, the soil is depleted, and the village turns elsewhere to clear another field. Eventually, the forest vegetation again takes over, and the area is refoliated. The soil is
thus allowed to replenish itself.
Swidden agriculture survives in areas of the humid
tropics that have low-potential environmental productivity
and low population pressure. Under ideal conditions, this
form of agriculture leaves much of the original vegetation
intact. Farmers make small, discontinuous clearings in
forests. They cut down some trees, burn the debris, and
prepare the soil for a variety of crops—groundnuts, rice,
taro, sweet potato. Because no fertilizer is used, soil nutrients are quickly depleted. Using hoes or knives, farmers
plant the fields by hand with tubers or seeds: An indentation is made in the soil, a stem of a plant is submerged or
a seed is dropped into a hole, and soil is pushed over the
opening by hand. Mechanization and animals are not used
for plowing or for harvesting. The most productive farming occurs in the second or third year after burning.
Following this, surrounding vegetation rapidly regenerates, weeds grow, and soil productivity dwindles. The
plot, sometimes called a swidden or milpa, is abandoned;
then a new site is selected nearby. Usually, the village
does not permanently relocate. The villagers commonly
return to the abandoned field after 6 to 12 years, by which
time the soil has regained enough nutrients to grow crops
again. Except on steep slopes, where soil erosion can be a
serious problem, shifting cultivation can be a sustainable
system of agriculture. It allows previous plots to regenerate natural growth. However, shifting cultivation can lead
to degradation when an increasing population demands
too much of the land, reducing the fallow period.
The predominant crops grown in shifting agricultural
areas include corn and manioc (cassava) in South America,
rice in Southeast Asia, and sorghum and millet in Africa. In
some regions, yams, sugarcane, and other vegetables are
also grown. The patchwork of a swidden is quite complex
and seemingly chaotic. On one swidden, a variety of crops
can be grown, including those just mentioned, as well as
potatoes, rice, corn, yams, mangoes, cotton, beans, bananas, pineapples, and others, each in a clump or small
area within the swidden.
Only 5% of the world’s population engages in shifting
cultivation today. This low percentage is not surprising because tropical rainforests are not highly populated areas.
However, shifting cultivation occupies approximately 25%
of the world’s land surface and therefore is an important
type of agriculture. The amount of land devoted to this type
of agriculture is decreasing because governments in these
regions deem shifting cultivation to be economically unimportant. Consequently, governments in developing countries are selling and leasing land to commercial interests
that destroy the tropical hardwoods and rainforests.
165
PASTORAL NOMADISM Shifting cultivation and pastoral
nomadism can be classified as extensive subsistence agriculture. Areas in which pastoral nomadism is practiced include North Africa and the Middle East, the eastern plateau
areas of China and Central Asia, and eastern Africa’s Kenya
and Tanzania (see Figure 6.5). Only 15 million people are
pastoral nomads, but they occupy 20% of the earth’s land
area, areas that are climatically opposite to those of shifting cultivators. The lands of the pastoral nomads are dry;
usually less than 10 inches of rain accumulate per year,
and typical agriculture is normally impossible, except in
oases areas.
Instead of depending on crops as most other farmers
do, nomads depend on animal herds for their sustenance.
Everything that they need and use is carried with them
from one forage area to another. Tents are constructed of
goats’ hair, and milk, clothing, shoes, and implements are
produced from the animals. Pastoral nomads consume
mostly meat and grain. Sometimes, in exchange for the
meat, other needed goods are obtained from sedentary
farmers in marginal lands near the nomads’ herding regions. It is common for pastoral nomads to farm areas near
oases or within floodplains that they occupy for a short
period of the year. Nomadic parties usually include 6 to 10
families who travel in a group, carrying bags of grain for
sustenance during the drier portions of the year.
A cyclical pattern of migration is entrenched in the
nomadic way of life, and it lasts for generations. Pastoral
nomads are not wandering tribes; they follow a 12-month
cycle in which lands most available for forage are cyclically revisited in a pattern that exhibits strong territoriality
and observance of the rights of adjacent tribes. The exact
migration pattern of today’s pastoral nomads has developed from a precise geographic knowledge of the region’s
physical landforms and environmental provision.
Nomads must select animals for their herds that can
withstand drought and provide the basic necessities of the
herdsmen. The camel is the quintessential animal of
the nomad because it is strong, can travel for weeks without water, and can move rapidly while carrying a large
load. The goat is the favorite small animal because it requires little water, is tough, and can forage off the least
green plants. Sheep are slow moving and require more
water, but they provide other necessities: wool and mutton. Small tribes need between 25 and 60 goats and sheep
and between 10 and 25 camels to sustain themselves.
Before the railroad and telegraph, pastoral nomads
were the communication agents of the desert regions, carrying with them innovations and information. This is no
longer the case, as nomadic societies have fallen before
the territorial imperatives of the nation-state and its fixed
boundaries. However, nomadic herding remains because
these vast dry areas of the world cannot be used for other
economic activity. Furthermore, government attempts to
settle pastoral nomads have met with little success. In the
future, pastoral nomads will be allowed only on lands that
do not have energy resources or precious metals beneath
the surface or on lands that cannot be easily irrigated from
166
The World Economy: Geography, Business, Development
nearby rivers, lakes, or groundwater aquifers. In any case,
the number of pastoral nomads is declining.
INTENSIVE SUBSISTENCE AGRICULTURE Intensive subsis-
tence agriculture is practiced by large populations living
in East, South, and Southeast Asia, Central America, and
South America (see Figure 6.5). Whereas shifting cultivation and pastoral nomadism are extensive low-density,
marginal operations, intensive subsistence agriculture, as
the term implies, is a higher-intensity type of agriculture
in the majority of the densely populated developing areas
of the world. Rice is the predominant crop because of its
high levels of carbohydrates and protein. Most farmers involved in intensive subsistence rice agriculture use every
available piece of land, however fragmented, around their
villages (Figures 6.7 and 6.8). Most often, a farm encompasses only a few acres.
Intensive subsistence agriculture is characterized by
several features:
1. Most of the work is done by hand, with all family
members involved. Occasionally farm animals are
used, such as water buffalo or oxen. Almost no mechanization is involved because of lack of capital to
purchase such equipment and because plots are tiny.
2. Plots of land are extremely small by Western standards. Almost no piece of land is wasted. Even
roads through agricultural regions of intensive subsistence are made narrow so that all cultivatable
areas can be used.
3. The physiological density (i.e., the number of people
that each acre of land can support) is very high.
4. Principal regions that are cultivated are river valleys
and irrigated fields in low-lying, moist regions in the
middle latitudes.
FIGURE 6.7 In Indonesia, harvesting rice is an example of laborintensive peasant culture.
FIGURE 6.8 These rice fields in Yunnan,
southern China, are typical of the
intensive paddy rice agriculture system
that feeds more than a billion people in
East and Southeast Asia. When China’s
technocrats decide to build a farm or
dam a river, build a road or move a
village, the dam goes up, the road goes
down, and the village disappears. The
villagers may be compensated, but they
are not allowed to stand in the way of
progress. China’s leaders make rational
decisions that balance the needs of all
citizens over the long term. This has led
to rapid, sustained growth that has
lifted hundreds of millions of people
out of hunger and poverty.
Chapter 6 • Agriculture
Because rice is a crop that has a high yield per acre
and is rich in nutrients, it is a favorite in intensive subsistence agricultural regions (Figure 6.9). First, the field is
plowed with a sharpened wooden pole that is pulled by
oxen. Next, the field is flooded with water and planted
with rice seedlings by hand. Another method is to spread
dry seeds over a large area by hand. When the rice is mature, having developed for three-fourths of its life underwater, it is harvested from the rice paddy. To separate the
husks from the rice itself, the farmers thrash the rice by
beating it on a hard surface or by trampling it underfoot.
Sometimes it is even poured on heavily traveled roads.
The chaff is thus removed from the seeds, and sometimes
the wind blows the lightweight material far from the pile
of rice itself, a process known as winnowing.
Some year-round, tropical, moist areas of the world
permit double cropping. This means that more than one
crop can be produced from the same plot within the year.
Occasionally in wet regions, two rice crops are grown, but
more frequently a rice crop and a different crop, which requires less water, are produced. The field crop is produced
in the drier season on nonirrigated land. In the higher latitudes of East Asia, rice is mixed with other crops and may
not be the dominant crop. In western India and the northern China plain, wheat and barley are the dominant crops,
with oats, millet, corn, sorghum, soybeans, cotton, flax,
hemp, and tobacco also produced.
Problems of Subsistence Agriculturalists
Subsistence agriculture is subjected to variations in soil
quality, availability of rain from year to year, and, in general,
environmental conditions that can harm crop-production
levels and endanger life. In addition, subsistence agriculturalists lack tools, implements, hybrid seeds, fertilizer, and
mechanization that developed nations have had for nearly
100 years. With such drawbacks, subsistence agriculturalists can barely provide for their families, and net yields
have not increased substantially for many generations.
These families do not have enough capital to purchase the
necessary equipment to improve their standard of living.
Finally, all too often, developing countries turn to their
limited sources of export revenues to generate the cash
flow needed for infrastructure, public services, and the military. They must produce something that they can sell in
the world market. Often, they sell mineral resources, foodstuffs, and nonmineral energy fuels. Most frequently, these
countries sell cash crops on the world market to generate
foreign revenue; thus, the food is not used to sustain their
own population. Another category of agricultural products
that can generate revenue is nonfood or not-nourishing
crops, such as sugar, hemp, jute, rubber, tea, tobacco, coffee, and a growing harvest of cotton to satisfy the world’s
need for fabric and denim. All of these commodities, however, command very low prices on the global market. How
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
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OCEAN
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Tropic of Cancer
Tropic of Cancer
20°
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160°
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PACIFIC
OCEAN
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ARABIAN
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BAY OF
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10°
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INDIAN
10°
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RICE PRODUCTION
(MILLION METRIC TONS)
100.0 and above
10.0–99.9
10°
140°
90°
150°
OCEAN
10°
120°
20°
20°
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150°
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CORAL SEA
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170°
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Tropic of Capricorn
30°
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1.0–9.9
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Below 0.1
167
40°
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110° 120° 130° 140° 150° 160°
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0
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2,000
2,000
180°
3,000 MILES
3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 6.9 World rice production. Rice was domesticated in East Asia more than 7000 years ago. Unlike corn in the United
States, which primarily goes toward animal feed, rice is almost exclusively used for human consumption. About 2 billion
people worldwide are fed chiefly by rice. It is the most important crop cultivated in the most densely settled areas of the
world, including China in East Asia, India in South Asia, and Southeast Asia. These areas produce more than 90% of the
world’s rice. Rice is an ideal crop in very humid and tropical regions because it depends on large quantities of water to
develop. Rice requires a large amount of labor and tedious work, but the returns are bountiful. Rice produces more food per
unit of land than any other crop; thus, it is suitable for the most densely populated areas of the world, such as China and
India. (See the color insert for a more illustrative map.)
168
The World Economy: Geography, Business, Development
can impoverished nations feed themselves when a large
proportion of their agricultural productivity and acreage is
devoted to nonfood crops? This is the plight of many
African, South American, Central American, and Asian
countries today. As a result, sometimes alternative sources
of income are inviting, even if they are illegal, such as
cocoa or opium.
COMMERCIAL AGRICULTURE
Commercial agricultural areas dominated by capitalist social relations include the United States and Canada,
Argentina and portions of Brazil, Chile, Europe, Russia and
Central Asia, South Africa, Australia, New Zealand, and
portions of China.
Agriculture in the United States epitomizes the contemporary capitalist system of food production. The American
agricultural system developed in the nineteenth century as
part of the unfolding of the European “frontier” across
North America. Railroads and steamships dramatically lowered transport costs to the markets along the East Coast,
and agricultural trading centers and ports, such as Chicago,
St. Louis, and New Orleans grew rapidly. By the turn of
the century, the United States had become a major supplier
of wheat and other commodities to Europe. The only other
major producer, Russia, effectively withdrew from world
markets following the revolution there in 1917, leaving
the United States as the major supplier. Consequently, the
vast agricultural region stretching across the Ohio and
Mississippi river basins into the Great Plains, and extending
into central Canada, became the core of the North
American food-producing system.
American agriculture today is a huge and very productive industry dominated by a handful of large agribusiness
firms. Agribusiness, dominated by such giant food companies as ConAgra, Bunge, Cargill, Dole, Nabisco, General
Mills, Kraft General Foods, Hunt-Wesson, Archer Daniels
Midland, and United Brands, controls the whole food chain
from “seedling to supermarket.” Whereas the popular imagination clings to the stereotype of the small family farmer, in
reality most American agriculture is organized around the
needs of a small handful of large firms, which generally do
not own the farmland but control the food production and
processing (e.g., canning), distribution, price and cost, and
marketing. The concept that describes the food companies’
control of the production process from raw material to final
product is vertical integration, which is common in
capital-intensive production.
Agribusiness is extremely capital-intensive and energyintensive. Farmers rely on copious quantities of chemicals,
tractors, harvesters, airplanes, and other equipment—
most of it very sophisticated, computer controlled, and
expensive—to keep labor inputs low and productivity levels high. Only 2% of the U.S. labor force is employed in
agriculture, and it not only feeds the other 98% of the populace but exports vast amounts of food as well. The very
high per capita productivity has resulted in long-term rural
depopulation. For example, the use of tractors worldwide
(Figure 6.10) is a measure of the capital-intensity of agricultural production: Countries with highly commodified
agricultural systems rely extensively on this technology,
freeing people from the farm, whereas in developing nations with a peasant-based system of agriculture, tractors
are relatively uncommon.
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
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50°
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PACIFIC
40°
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ATLANTIC
OCEAN
30°
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OCEAN
30°
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Tropic of Cancer
Tropic of Cancer
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PACIFIC
OCEAN
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
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0°
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INDIAN
10°
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TRACTORS PER 1,000
HECTARES OF FARMLAND
10.0 and above
10°
20°
40°
20°
150°
160°
30°
Below 0.2
40°
40°
No Data
50°
50°
30°
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40°
30°
30°
40°
110° 120° 130° 140° 150° 160°
50°
170°
CORAL SEA
20°
Tropic of Capricorn
30°
0.2–0.9
150°
10°
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20°
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0
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1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 6.10 Tractors per 1000 hectares of farmland. Tractor usage is an indicator of the degree to which agriculture is
mechanized. Farming systems in economically developed countries rely heavily on tractors and similar equipment—as well as
fossil fuels—whereas low tractor usage is associated with labor-intensive farming in less developed countries.
Chapter 6 • Agriculture
The importance of corporate farming is growing
in market gardening, which is sometimes called truck
farming. Modern truck farms specialize in intensively cultivated fruits, vegetables, and vines, and they depend on
migratory seasonal farm laborers to harvest their crops. In the
United States, California is the epicenter of fruit and vegetable
farms, although they are widespread in Florida as well.
Agribusiness has also extended livestock farming immensely; it has mechanized the raising and slaughter of
cattle, often under inhumane conditions. Other examples
of modern livestock production include poultry ranches
and egg factories. At one time, livestock farming was associated with a combination of crop and animal raising on
the same farm. In recent years, livestock farming has
become highly specialized. An important aspect of this
specialization has been the growth of factory-like feedlots,
which raise thousands of cattle and hogs on purchased
feed, generating huge quantities of animal waste. Feedlots
are common in the western and southern states, in part
because winters there are mild. These feedlots raise more
than 60% of the beef cattle in the United States.
Thus, corporate agriculture is an industry similar to the
production of other goods such as cars. Agriculture’s major
backward linkages—its purchases from other sectors—
include petroleum and machinery; notably, labor is only a
small part of the production costs, given how capitalintensive the sector is. The forward linkages of this
sector—its sales to other parts of the economy—include
the food processing sector and meat production; a large
share of cereals, especially corn, are grown for animal feed.
Modern American farming is quick to respond to new
developments, such as new production techniques.
Consequently, farmers with sizable investments of money,
materials, and energy can create drastic changes in landuse patterns. For example, farmers in the low-rainfall areas
of the western United States have converted large areas of
grazing land to forage and grass production with the use
of center-pivot irrigation systems (Figure 6.11). Other
169
farmers grow sugar beets and potatoes in western oases
through federally subsidized water projects.
American corporate farming is also extending overseas
to become a worldwide food-system model. Poultry-raising
operations in Argentina, Pakistan, Thailand, and Taiwan are
increasingly similar to those in Alabama or Maryland.
Enormous, politically well-connected enterprises such as
United Brands, Del Monte, Archer Daniels Midland, and
Unilever divert food production in developing countries toward consumers in developed countries.
U.S. Commercial Agriculture: Crops and Regions
The main characteristic of commercial agriculture is that
it is produced for sale off the farm, at the market.
Following are some of the characteristics of commercial
agriculture:
1. Populations fed by commercial agriculture are urban
populations engaged in other types of economic activity, such as manufacturing, the services, and information processing.
2. Only a small proportion of the population is engaged
in agriculture.
3. Machinery, fertilizers, and high-yielding seeds are
used extensively, with high energy inputs.
4. Farms are extremely large, and the trend is toward
even larger farms.
5. Agricultural produce from commercial agriculture is
integrated with other agribusiness, and a vertical
integration exists that stretches from the farm to the
table.
Commercial Agriculture and
the Number of Farmers
The percentage of laborers in developed countries working in commercial agriculture is less than 5% overall. In
contrast, in some portions of the developing world where
intensive subsistence agriculture is practiced, 90% of the
FIGURE 6.11 The development of the
center-pivot irrigation system in the
1950s enabled large-farm operators to
transform huge tracts of land in sandy or
dry regions of the United States into
profitable cropland. Here, alfalfa is
being irrigated in Montana. The alfalfa
will be used to fatten cattle. The top
farm products produced in the United
States in order of value are corn, beef,
milk, chicken, soybeans, pork, wheat,
and cotton.
The World Economy: Geography, Business, Development
population is directly engaged in farming, and the average
is 60% overall. Today, U.S. farmers on average produce
enough food for themselves and 70 other families.
In 2008, the United States had approximately 1.7 million
farms, compared with 5.7 million in 1950 (Figure 6.12). This
reduction in the number of farm families as a percentage of
the population is a result of waves of corporate consolidation and mergers and the high cost of equipment, low
prices, or high interest rates that drive families off the farms.
Farming is difficult, often dangerous work, and low crop
prices can be ruinous. Meanwhile, the opportunity for a college education and higher-paying occupations in the cities
have long lured farm children off the land. One serious
problem is the encroachment of metropolitan areas onto the
best farmland, which has become directly adjacent to urban
areas through the expansion of housing subdivisions and
shopping centers. Suburban sprawl, brought on by interstate highways that reduce the commute and penetrate into
the countryside, has usurped viable topsoil and farmland
around many metropolitan areas in the United States as well
as around many European cities.
Machinery and Other Resources in Farming
The second aspect unique to commercial agriculture,
besides the small percentage of farmers in the population,
is the heavy reliance on expensive machinery—tractors,
combines, trucks, diesel pumps, and heavy farm
equipment—all amply fueled by petroleum and gasoline
resources, to produce the large output of farm products.
To this miracle seeds have been added that are hardier
than their predecessors and produce more impressive tonnages. Commercial agriculture is also fertilizer-intense.
Improvements in transportation to the market have resulted in less spoilage. Products arrive at the canning and
food-processing centers more rapidly than they did earlier.
By 1850, many American farms were well connected to
cities by rail transportation. More recently, the motor truck
has supplanted rail transportation, and the advent of the
refrigerator car and the refrigerator truck meant that freshness was preserved. Cattle also arrive at packing houses by
motor truck as fat as when they left the farm, unlike the
mid-nineteenth century, when long cattle drives were
the order of the day, connecting cattle-fattening areas in
Types of Commercial Agriculture
We can divide commercial agriculture into six main categories: mixed crop and livestock farming, dairy farming,
grain farming, cattle ranching, Mediterranean cropping,
and horticulture and fruit farming (see Figure 6.5).
MIXED CROP AND LIVESTOCK FARMING Mixed crop and
livestock farming is the principal type of commercial agriculture, and it is found in Europe, Russia, Ukraine, North
America, South Africa, Argentina, Australia, and New
Zealand. The primary characteristic of mixed crop and livestock farming is that the main source of revenue is livestock,
especially beef cattle and hogs. In addition, income is produced from milk, eggs, veal, and poultry. Although the majority of farmlands are devoted to the production of crops such
as corn, most of the crops are fed to the cattle. Cattle fattening is a way of intensifying the value of agricultural products
and reducing bulk. Because of the developed world’s preference for meat as a major food source, mixed crop and livestock farmers have fared well during the past 100 years.
In developed nations, the livestock farmer maintains soil
fertility by using a system of crop rotation in which different
crops are planted in successive years. Each type of crop adds
different nutrients to the soil. The fields become more efficient and naturally replenish themselves with these nutrients.
Farmers today use the four-field rotation system, wherein
one field grows a cereal, the second field grows a root crop,
the third field grows clover as forage for animals, and the
fourth field is fallow, more or less resting the soil for that year.
6.0
Number of Farms (Millions)
FIGURE 6.12 The number and average
size of U.S. farms, 1950–2002. Since 1950,
the number of U.S. farms has decreased
steadily, while the average farm size has
increased steadily. Farming today is
dominated by agribusiness, not family
farms.
Texas, Oklahoma, and Colorado with the Union Pacific rail
line stretching from St. Louis to Kansas City to Denver.
Agricultural experiment stations are now located in
every state and are usually affiliated with land-grant universities. These stations have made great improvements in
agricultural techniques, not only in improved fertilizers and
hybrid plant seeds but also in hardier animal breeds and
new and better insecticides and herbicides, which have reduced pestilence. In addition, local and state government
farm advisors can provide information about the latest techniques, innovations, and prices so that the farmer can make
wise decisions concerning what should be produced, when
it should be produced, and how much should be produced.
500
Average Size of Farms
5.5
450
5.0
400
4.5
350
4.0
3.5
300
3.0
2.0
1950
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Number of Farms
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1960
1970
1980
1990
2000
Average Size of Farms (Acres)
170
Chapter 6 • Agriculture
Most cropping systems in the United States rely on corn
(Figure 6.13) because it is the most efficient for fattening
cattle. American corn is highly subsidized by the federal government, largely owing to the political clout of agribusiness,
and is thus produced in much larger volumes for lower
prices than would be the case if it were a “free market.”
Some corn is consumed by the general population in the
form of corn on the cob, corn oil, or margarine, but most is
fed to cattle or hogs, even though cows evolved to eat grass,
not corn. Corn is widely used in corn sweeteners in a large
variety of processed foods, including soft drinks and
ketchup. The second most important crop in mixed crop
and livestock farming regions of central North America and
the eastern Great Plains is the soybean. The soybean has
more than 100 uses, but it is used mainly for animal feed. In
China and Japan, tofu is made from soybean milk and is
used as a major food source high in protein and low in fat.
DAIRY FARMING Dairy farming accounts for the most
farm acreage in the northeastern United States and northwestern Europe and accounts for 20% of the total output
by value of commercial agriculture. Ninety percent of the
world’s milk supply is produced in these few areas of
the world. Most milk is consumed locally because of its
weight and perishability.
Some dairy farms produce butter and cheese as well as
milk. In general, the farther the farm is from an urban area, the
more expensive the transportation of fluid milk, and the
greater proportion of production in more high-value-added
commodities, such as cheese and butter. For example, the
Swiss discovered ways of transforming their milk products
into high-value-added chocolates, cheeses, and spreads that
are distributed worldwide. These processed products are
not only lighter but also less perishable. On the other hand,
in the United States, the proximity of farms to Boston, New
York, Philadelphia, Baltimore, and Washington, DC, on the
East Coast, and to Chicago and Los Angeles in the Midwest
and West, means that these farms primarily produce liquid
milk. Farms throughout the remaining areas of the United
States primarily produce butter and cheese. Worldwide, remote locations, such as New Zealand, for example, devote
three-fourths of their dairy farms to cheese and butter production, whereas three-fourths of the farms in Britain, with
a much higher population density at close proximities, produce fluid milk.
Dairy farms are relatively labor-intensive because cows
must be milked twice a day. Most of this milking is done
with automatic milking machines. However, the cows still
must be herded into the barn and washed, the milking
machines must be attached and disassembled, and the cows
must be herded back out and fed. The difficulty for the
dairy farmer is to keep the cows milked and fed during winter, when forage is not readily available and must be stored.
GRAIN FARMING Commercial grain farms are usually in
drier territories that are not conducive to dairy farming or
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MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 6.13 World corn (maize) production. Corn was domesticated in Central America more than 5000 years ago and
exported to Europe in the fifteenth century. The United States accounts for more than 30% of the world’s corn production,
and 90% of this corn crop is fed to cattle and livestock for fattening and meat production. Outside the United States, corn is
called maize. China is the second leading producer of corn, but the majority of the crop is consumed by humans. Because
meat produces a greater market value per pound than corn by itself does, U.S. farmers convert corn into meat by feeding it
to livestock on farms and feedlots. In the United States, the Corn Belt is also the livestock region of North America; it is
located in the western Midwest and the eastern Great Plains. Argentina and Brazil, as well as Europe, also have sizable
corn-production areas. (See the color insert for a more illustrative map.)
172
The World Economy: Geography, Business, Development
FIGURE 6.14 Harvesting wheat by
combine in the United States exemplifies
capital-intensive and energy-intensive
agriculture. Grain, such as the wheat
shown here, is often a major crop on
most farms. Commercial grain
agriculture is different from mixed crop
and livestock farming in that the grain is
grown primarily for consumption by
humans rather than by livestock. In
developing countries, the grain is
directly consumed by the farm family or
village, whereas in commercial grain
farming, output is sold to manufacturers
of food products.
mixed crop and livestock farming. Most grain, unlike the
products of mixed crop and livestock farming, is produced for sale directly to consumers. Only a few places in
the world can support large grain-farming operations
(Figure 6.14). These areas include China, the United
States, Canada, Russia, Ukraine, Argentina, and Australia
(Figure 6.15). Wheat is the primary crop used to make
flour and bread. Other important grains include barley,
oats, rye, and sorghum. These grains are not particularly
perishable and can be shipped long distances. Wheat is
the most highly valued grain per unit area and is the most
important for world food production. Figure 6.16 shows
that grain yield and production increased markedly in developing countries between 1970 and 2005, while cropland
area has increased only slightly. However, production per
capita is much more disappointing in developing countries, particularly in Africa. But the world’s food-producing
system, however constrained and imperfect, has allowed
the global food supply to keep pace with world population increases (Figure 6.17), denying, or at least forestalling, the Malthusian prophecy (Chapter 3).
Wheat is the leading international agricultural commodity transported among nations. The United States and Canada
are the leading export nations for grains and together
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FIGURE 6.15 World wheat production. China is the world’s leading wheat producer, followed by the United States and
Russia. The United States, Canada, Australia, and Argentina are the primary wheat exporters, whereas Russia, Kazakhstan,
India, and China import the most wheat. Wheat can be stored in grain elevators. Therefore, current wheat prices worldwide
reflect not only growing conditions for that year but also those of supplies from commercial and subsistence operations that
have been stored throughout the world. (See the color insert for a more illustrative map.)
Chapter 6 • Agriculture
(index numbers, 1970 = 100)
180
Production
160
Yield
140
120
Crop Area
100
80
1970
1975
1980
1985
1990
1995
2000
2005
FIGURE 6.16 The world’s output of major food crops has increased
dramatically during the past 35 years, the most dramatic being
cereals. Milk, meat, fish, fruit, and vegetables have also made gains
in production worldwide. Every region of the world has increased
production primarily as a result of an increase in yields, not an
increase in cropland.
173
account for 50% of wheat exports worldwide. The North
American wheat-producing areas have been appropriately
labeled the world’s breadbasket because they still provide
the major source of food to many deficit areas, including
several starving countries in Africa (Figure 6.18). The United
States is the world’s only agricultural superpower and plays
a unique role in the global food-production system.
Agricultural exports generate more than $110 billion in
export revenues annually, and the United States exports 20%
of all food traded internationally. As with other economic
sectors, agriculture has become thoroughly globalized; for
example, farmers in Nebraska and Kansas are well aware
that next year’s revenues will be shaped by weather and
political events in markets in Europe and Asia.
In North America, the Spring Wheat Belt is west of the
mixed crop and livestock farming area of the Midwest and
is centered in Minnesota, North Dakota, South Dakota, and
Saskatchewan (Figure 6.19). Major cities in the Great Plains,
such as Minneapolis and St. Paul, were often established as
centers of flour milling and distribution. Another region,
just south of the Wheat Belt, is the Winter Wheat Belt,
7
2200
6
2000
World population
World grain production
1800
5
World Population (billions)
1400
4
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3
1000
800
2
600
400
1
200
0
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1955
1960
1965
1970
1975
Year
1980
1985
1990
1995
2000
2005
0
2008
FIGURE 6.17 World population growth and grain production, 1950–2008. Despite persistent concerns about diminishing returns and
environmental degradation, the world’s food-supply system has either refuted or postponed Malthusian predictions of massive famine.
World Grain Production (million tons)
1600
The World Economy: Geography, Business, Development
174
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NET EXPORTER
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FLOW OF AT LEAST
1 MILLION METRIC TONS
No data
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Wheat
Less than 10 million
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Corn
FIGURE 6.18 A handful of countries dominate grain exports, including the United States, Canada, and Australia. (See the color insert
for a more illustrative map.)
Gener
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Po = Poultry
T = Tobacco
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FIGURE 6.19 Major agricultural regions of the United States and Canada.
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Chapter 6 • Agriculture
175
which is centered in Kansas, Colorado, and Oklahoma.
Because winters are harsh in the Spring Wheat Belt, the
seeds would freeze in the ground, so, instead, spring
wheat is planted in the spring and harvested in the fall; the
fields are fallow in the winter. Winter wheat, however, is
planted in the fall and moisture accumulation from snow
helps fertilize the seed. It sprouts in the spring and is harvested in early summer. Like corn-producing regions,
wheat-producing areas are heavily mechanized and require
high inputs of energy resources. Today, the most important
machine in wheat-producing regions is the combine, which
not only reaps but also threshes and cleans the wheat. Large
storage devices called grain elevators are a prominent landscape feature as one traverses the Great Plains of the United
States and Canada. In part, these reflect the enormous
surpluses that farmers have accrued, to some degree due to
government subsidies.
CATTLE RANCHING Cattle ranching is practiced in devel-
oped areas of the world where crop farming is inappropriate because of aridity and lack of rainfall. Cattle ranching is
an extensive agricultural pursuit because many acres are
needed to raise cattle. In some instances, cattle are penned
near cities and forage is trucked to cattle-fattening pens
called feedlots (Figure 6.20).
Major cities grew up across the western United States
partly because of the services provided by their slaughterhouses and stockyards. Denver, Dallas, Chicago, Kansas City,
and St. Louis are examples. If a cattle farmer could get a steer
to one of these cities, it was worth 10 times as much as it was
worth on the range. Early American ranchers were not as
concerned about owning territory as they were about owning heads of cattle. Consequently, the range was open and
the herds grazed as they went toward market. Later, farmers
bought up the land and established their perimeters with
barbed-wire fences. Until about 1887, the ranchers cut the
barbed-wire fences and continued to move their herds about
wherever they pleased. However, after that point, the farmers
seemed to win the battle, and ranchers were forced to switch
from long cattle drives and wide territories of rangeland to
stationary ranching. The land was divided according to the
availability of water and the amount of rainfall. Farmers used
the land that was productive for farm crops, such as grains
and wheat, whereas the ranchers received the land that was
FIGURE 6.21 Corporate cattle farming in the United States.
FIGURE 6.20 Feedlots for beef cattle in California. According to
the “Code of the West,” cattle ranchers owned little land, only
cattle, and grazed open land wherever they pleased. New cattle
breeds introduced from Europe, such as the Hereford, offered
superior meat but were not adapted to the old ranching system
of surviving the winter by open grazing. In moist areas, crop
growing supplanted ranching because it generated a higher
income per acre. Some cattle are still raised on ranches, but most
are sent for fattening to feedlots along major interstate highways
or railroad routes. Many feedlots are owned by agribusiness and
meat processing companies rather than by individuals.
too dry for farming. Ironically, given the frequent hostility of
cattle ranchers to the state in the past, today 60% of cattle
grazing occurs on land leased from the U.S. government,
with ranchers paying fees well below market rates (a circumstance that again defies the conventional myth of the “free
market”). Today, ranches in Texas and the West cover thousands of acres because the semiarid conditions mean that
several acres alone are required to raise one head of cattle
(Figure 6.21). Some extremely large ranches are owned by
meat-packing companies that can fatten the cattle, slaughter
them, and package the meat all on the same ranch.
176
The World Economy: Geography, Business, Development
South America, Argentina, Uruguay, and Brazil all have
significant cattle-ranching industries (Figure 6.22). These regions, as well as Australia and New Zealand, followed a
similar pattern of cattle-ranching development. First, cattle
were grazed on large, open, government tracts with little regard for ranch boundaries. Later, when a conflict with farming interests occurred, cattle ranches moved to drier areas.
When irrigation first began to be used in the 1930s and
1940s, farms expanded their territory and ranchers moved
to even drier areas and centered much of their herds on
feedlots near railroads or highways leading toward the markets. Today, ranching worldwide has become part of a vertically integrated agribusiness meat-processing industry.
MEDITERRANEAN CROPPING Mediterranean regions of the
world grow specialized crops, depending on soil and
moisture conditions. These regions include the lands
around the Mediterranean Sea, southern California, central
Chile, South Africa, and southern Australia. In these regions, summers are dry and hot and winters are mild and
wet. The Mediterranean Sea countries produce olives and
grapes. Two-thirds of the world’s wine is produced in
Mediterranean Europe, especially Spain, France, and Italy.
In addition, these countries and Greece produce the
world’s largest supply of olive oil. In California, the crop
mix is slightly different because of consumer demand and
preferences. Most of the land devoted to Mediterranean
agriculture is taken up by citrus crops, principally oranges,
lemons, and grapefruit.
Unfortunately for Mediterranean farmers, these areas
of the world are some of the most prized for their climates.
80°
Northern Europeans turned many Mediterranean Sea areas
into tourist rivieras. No discussion is necessary to describe
the land-use changes associated with the growth of
Southern California. Burgeoning suburban developments
around major cities, especially Los Angeles, are rapidly
dwindling our Mediterranean agricultural lands. In Chile,
90% of the population lives in the Mediterranean lands in
the central one-third of the country, centered on Santiago.
HORTICULTURE AND FRUIT FARMING Because of consumer
preferences, purchasing power, and a severe winter season, there is a tremendous demand in U.S. East Coast cities
for fruits and vegetables not grown locally. Shoppers in
Philadelphia, New York City, Washington, DC, Baltimore,
and Boston pay dearly for truck farm fruits and vegetables,
such as apples, asparagus, cabbage, cherries, lettuce,
mushrooms, peppers, and tomatoes. Consequently, a horticulture and fruit-farming industry exists as close as possible to this portion of the United States as temperature and
soil conditions allow. Stretching from southern Virginia
through the eastern half of North Carolina and South
Carolina to coastal Georgia and Florida is the Atlantic Fruit
and Vegetable Belt (see Figure 6.19). This is an intensively
developed agricultural region with a high value per acre.
The products are shipped daily to the northeastern cities
for direct consumption or for fruit and vegetable packing
and freezing.
As in the case of Mediterranean agriculture and subtropical cropping in southern California, the Atlantic fruit
and vegetable horticulture industry relies heavily on inexpensive labor. In California, the laborers are primarily from
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20°
20°
Not available
OCEAN
150°
160°
CORAL SEA
20°
170°
20°
Tropic of Capricorn
30°
30°
40°
40°
50°
50°
30°
40°
Under 100
50°
150°
10°
120°
20°
10000-49999
30°
140°
90°
30°
30°
40°
110° 120° 130° 140° 150° 160°
50°
0
0
1000
1000
2000
2000
180°
3000 MILES
3000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 6.22 World cattle production. The developed countries produce the most beef products because a large amount
of the grain crops, particularly corn, can be fed to cattle to fatten them. Poorer nations must consume all available food
supplies directly or use them as revenue-producing exports. The United States, Western Europe, Russia, Brazil, Argentina,
and Australia are the leading producers worldwide.
Chapter 6 • Agriculture
FIGURE 6.23 Farm workers in the United States, many of whom
are illegal immigrants, work long hours at very low rates of pay.
Agriculture is exempted from minimum wage laws, and many of
these impoverished workers, who make possible fresh fruits and
vegetables at low prices, are highly vulnerable to exploitative
employers.
Mexico and Central America and often enter the United
States illegally. On the Atlantic Coast, the laborers are primarily from the Caribbean and their immigration status is
also often questionable. Farm workers often work under
brutally exploitative conditions for extremely low wages,
typically well below minimum wage. Inexpensive labor is
the major way that specialized agriculturalists maintain
profits in areas under pressure from urban growth and
expansion. Often illiterate and politically powerless, the
laborers suffer at the hands of unscrupulous employers.
They may be cheated out of their pay, exposed to dangerous pesticides, and not be able to afford a place to live. In
part, our cheap fruits and vegetables come at the expense
of human misery (Figure 6.23).
U.S. AGRICULTURAL POLICY
Agribusiness is a long way from the mythical “free market”
(Chapter 5); active government intervention of different
types has long been involved in this sector of the economy.
In the past, American farms were family owned, small,
and served local markets. In those days, farm prices were
relatively stable and predictable, although persistent over-
177
production in the late nineteenth century gradually depressed prices and bankrupted many farmers. By the early
twentieth century, farms had become much larger and
more highly mechanized, and technological improvements
had revolutionized agriculture (Figure 6.24). An individual
farm family could manage as many as a thousand acres
with mechanized equipment. With improved transportation to the markets and between countries, the U.S. farmer
now served a much wider market area.
The early twentieth century was a prosperous time for
U.S. farmers, especially during World War I, when they
provided a large amount of food for Allied troops.
However, many farmers lost their fortunes during the
1920s and 1930s with the twin economic and environmental catastrophes of the Great Depression, and many farms
ceased to operate. World War II created another upswing
for agriculture as farmers once again provided food for a
much larger army, the Western allies, and a hungry nation.
After the war, the farmers’ fortunes dwindled in the 1950s
and 1960s until the U.S. government agreed to major grain
trade agreements with the Soviet Union in the 1970s,
which increased American exports.
Since then, world markets for U.S. grain have dwindled
as many foreign countries have become better able to
produce more of their own food. For example, as a result
of Green Revolution technology, India, formerly a net food
importer, is now a net food exporter. Relatively high interest rates made the cost of borrowing fertilizer, seeds, and
equipment frequently prohibitive, and periodic increases in
the value of the U.S. dollar relative to other currencies
made American exports uncompetitive. At the same time,
the costs of farm operation—including machinery, fertilizer,
land, and transportation—increased drastically. These less
profitable times for farmers, in which costs have outrun income, have continued. Compared with other sectors of the
U.S. economy, the farm sector has faced higher operating
costs and lower revenues, although it also enjoys subsidies.
The Farm Problem in North America
One reason that agricultural markets are currently in such
desperate straits is that the demand for farm products is
price-inelastic. Consumers do not demand significantly
more food when farm prices are low, so the reduction in
price does not lead to a substantial increase in the quantity demanded. This phenomenon is coupled with the fact
that the yield from agriculture has increased manyfold during the last 100 years. Technological and mechanical improvements and hybrid seeds have increased yields so
much that U.S. farm productivity is the highest in the
world (Figure 6.25). The quantity of farm products has increased much more rapidly than has demand. These three
factors have pushed down prices, as shown in Figure 6.26.
Industrial agribusiness thus exemplifies the classic capitalist tendency toward overproduction.
In Figure 6.25, we see the three tendencies of
American farming during the past 100 years: drastically
increased supply, moderately increased demand, and
)
178
The World Economy: Geography, Business, Development
FIGURE 6.24 Corporate farming in the United States. An employee watches a television monitor to see when a truck is in position to
receive its computer-calculated load.
falling prices. The result has been relatively low returns to
farm families and has spelled disaster for many farmers.
With lower prices and increased quantities, more and
more farmers cannot afford the rapidly rising costs for machinery, fertilizer, transportation, and labor. World farm
prices have likewise fallen (Figure 6.26). The result for
U.S. farmers has been a continuing reduction in return on
their investment. Many farmers are seeking to apply their
productivity to other, more profitable industries. However,
unlike a store that can change hands and change function
or a high-tech manufacturing plant that can change products, a farm is difficult to adapt to a new economic use.
As a result of persistent overproduction and low prices,
there has been a large movement of farm families and farm
labor away from the farm. In 1910, 35% of the U.S. population lived and worked on farms. By 2005, this figure
dropped to less than 1% of the total population. However,
considering present production, prices, and consumption,
we still have too many farmers in America today. In a normal market situation, resources would have shifted away
from agriculture into other economic activities. However,
due to U.S. government price supports for agriculture, this
has not been the case.
In 1933, with farming in deep crisis, Congress passed the
Agricultural Adjustment Act to aid American farmers. This
act was designed to help a large proportion of the population (up to 33%) who lived in rural areas. It artificially
raised farm prices so that farmers could enjoy a “fair
price,” or parity price, for their products. A parity price
was defined as “equality between the prices farmers could
sell their products for, and the price they would spend on
goods and services to run the farm.” The period selected
to determine parity prices was from 1910 to 1914, when
farm prices were relatively high in comparison with other
products.
Since 1933, however, the ratio between farm prices and
all consumer goods declined until 2000, when it was approximately 30% of the original 1914 parity established in 1933.
In other words, without parity, farmers could sell products
and purchase only 30% of what they could in the earlier
period. Admitting that markets had created widespread irrationality in agriculture, the federal government stepped in to
establish a program of agricultural subsidies, or a price
floor, for key agricultural commodities, a guaranteed price
S1
D2
D1
Price of Agricultural Products
FIGURE 6.25 Dynamics of the U.S. agricultural sector.
During the past 100 years, U.S. farm production has
burgeoned remarkably because of increased productivity,
increased mechanization, and improved fertilizers,
pesticides, and hybrid seeds. The U.S. farm output in 2000
was substantially more than it was in 1950, despite the Soil
Bank program and other methods used to keep land out
of production. At the same time, because food is an
income-inelastic commodity, demand has increased, but
not as much as supply. The result has been increased
outputs and reduced prices.
The U.S. Farm Subsidy Program
U.S. Agricultural
Supply in 1950
S2
1950
Demand
U.S. Agricultural
Supply in 2000
A
P1
B
P2
2000
Demand
S1
S2
D1
0
D2
Q1
Q2
Quantity of Agricultural Goods Demanded
Chapter 6 • Agriculture
2. Farmers produce a larger amount of surplus goods
than consumers are willing to buy.
3. Buyers pay more and buy less than they would if
market conditions prevailed.
4. Farmers’ incomes are artificially raised by government subsidies, and consumers’ incomes are artificially lowered.
1.6
Food
Agricultural Raw Materials
Commodities
Energy
1.2
0.8
0.4
0.0
–0.4
–0.8
–1.2
92
94
96
98
00
02
04
06
08
FIGURE 6.26 World agricultural commodity prices, 1990–2008.
Whereas prices declined in the late twentieth century, there was a
sharp rise in the early twenty-first, although prices for agricultural
goods rose slowly.
above the market price. These supports were minimum
prices that the government could assure farmers. For example, the government bought all corn and wheat from farmers
and sold it at what the market would bear. It stored many of
these commodities in its own storage facilities; thus public
funds were used to encourage farmers to grow more than
the market can consume and to store the surplus. In 1994,
the U.S. government began to offer farmers target pricing,
which is similar to the price supports of the 1950s through
the 1980s. With target pricing, the government pays directly
to the farmer the difference between the market selling price
and the target price that the government has set; the government no longer takes control of the product.
Figure 6.27 shows the effects of price supports on
agricultural products:
1. The market cannot arrive at an equilibrium price
through the normal means of supply and demand.
K
P2
Government-Established
Parity Price
E
Price
As shown in Figure 6.27, with the parity price artificially
high, farmers will supply the intersection of the price line
and the supply curve at K for a total quantity of Q 1.
However, with higher prices, the consumers will demand
Q 2. The difference between Q 1 and Q 2 is the surplus that
the government would purchase under the old pricesupport plan. Regardless of whether the subsidization is in
the form of price supports or target pricing, the result is an
extra cost to the taxpayer.
These price-support and target-price programs created
artificially high agricultural prices for U.S. agriculture for
the past 70 years. The hope, of course, was that market
prices would rise to parity, and they did during World War II
and during the Soviet grain trade agreements of the 1970s.
However, most of the time, the price of farm products was
much less than the parity price. The government also attempted to reduce production with the Soil Bank program,
which paid farmers to keep acreage out of production.
Initially, this approach worked, but the per-acre yields increased amazingly and completely overshadowed the lost
acreage in terms of total yield.
The small American farmer as a cultural and economic
institution is an endangered species. For years, the
government price-support programs kept inefficient farmers
in business. However, government subsidies, which amount
to more than $100 billion annually, favor large corporate
farms over small, family-owned ones. Because subsidies are
a function of a farm’s output, the subsidy program benefits
the largest farmers, the corporate agribusinesses, not the
small family farms as originally intended (Figure 6.28). The
U.S. corn industry is the largest recipient of government
S1
D1
L
P1
Market Price
S1
D1
Surplus Food
Q2
Q1
Quantity
179
FIGURE 6.27 U.S. agricultural price supports. The U.S.
government has supported farmers by establishing a
parity price above the equilibrium price, according to
supply and demand factors. For the past 60 years, the
effect of the price support has been to set prices higher
than they would normally be, thus producing a surplus
that the government was required to purchase with tax
dollars. The market cannot obtain an equilibrium at E
because surplus goods are produced and too often
wasted. The farmers’ incomes are artificially raised, but
buyers in the marketplace must pay more than the goods
would warrant under normal conditions. Unfortunately,
resources are artificially allocated and therefore
misallocated as price shifts from P1 to P2 demand drops
back to point L, while supply moves up to point K.
The World Economy: Geography, Business, Development
FIGURE 6.28 The proportion of farms, the proportion of
farm sales, and the percentage of government support
payments by farm size and dollar sales. Most U.S. farms
are small and produce a small proportion of total farm
sales. However, most government support payments go to
large farms. With regard to farming and farm policy, the
rich appear to be getting richer, whereas the poor or
small farms, which were the original focus of price
supports, are getting relatively poorer and scarcer. Oxfam
International, an antipoverty group, recommends helping
end hunger permanently by encouraging wealthier
countries to stop subsidizing their agriculture and biofuels
industries, which tend to keep world food prices high.
55
50
Percent of all farms
45
40
Percent of farm sales
35
Percent
180
Percent of government support payments
30
25
20
15
10
5
0
payments, amounting to $20 billion in 2008. In essence, the
large corporate agribusiness farms have become richer and,
with the lion’s share of U.S. government subsidies, forced
food prices even lower. This has, in effect, continued to
force the small farmers off the land. Due to the political
power of agribusiness, the federal government has found it
politically impossible to trim agricultural subsidies, although
doing so would improve the country’s agricultural land,
lower consumer prices, eliminate overproduction, and reduce the enmity toward the United States that subsidized
agricultural exports generate.
One solution to America’s farm problems is to design
new uses for farm products that are not currently demanded
in the United States. One example is an attempt to generate
gasohol from corn and other agricultural products to fuel
automobiles. A second use of the food surplus is Foodfor-Peace programs, which allow agricultural surpluses to
be distributed to starving nations instead of being liquidated
or exterminated by dumping or destroying storehouses of
food. Locally, the food stamp program for America’s
poor operates off the large agricultural surplus.
The United States is not alone in subsidizing its farmers.
Half of the budget of the European Union, for example, is
dedicated to the Common Agricultural Policy, which subsidizes farmers in France, Germany, and other countries.
Japanese farmers are very heavily subsidized in a country
with relatively little arable land, and Japanese consumers
pay prices well above the world average as a result.
Farming is often draped in the mantle of nationalism, and
politicians everywhere find it difficult to reduce agricultural subsidies. In 2005, the world’s developed countries
spent more than $600 billion in agricultural subisides,
flooding the world with cheap food and bankrupting
farmers throughout the developing world. In any case,
agriculture exemplifies the powerful role of the state in almost all market-dominated societies; there is certainly no
“free market” in farming.
<10
10–20
20–40
40–100
100–250
Farm Size by Dollar Sales ($10,000)
250+
SUSTAINABLE AGRICULTURE
Industrialized agriculture has had profound impacts on the
natural world, especially over the course of the twentieth
century. Many of these impacts result from its formation of
monocultures that rely heavily upon mechanical, biological,
and chemical inputs (e.g., tractors, hybrid seeds, herbicides,
and pesticides). Industrial agriculture requires enormous energy inputs in the form of fossil fuels for tractors and irrigation, petrochemical-derived fertilizers to increase yields, and
the energy required to transport food globally. Globally, the
use of pesticides has grown since World War II, costing billions of dollars annually and causing thousands of human
deaths and adverse health risks due to cancer, acute poisonings, and neurological damage each year. Pesticides also
harm a wide variety of wildlife, including microorganisms,
fish, birds and mammals, through direct or secondary environmental exposure. Soil health, critical for food production, has also been damaged by industrial agriculture due to
increasing farm specialization, ever-larger farms, and monoculture-cropping practices. With inorganic fertilizer use, the
natural organic matter of the soil is not replenished, and
despite chemical substitutes, many areas have seen a decline in soil productivity. Moreover, with the increased use
of pesticides and herbicides, some insects, weeds, and fungi
evade being controlled and eventually evolve resistance.
Similarly, overuse of antibiotics in industrial livestock
production is a global concern, given that agricultural
pathogens are becoming resistant to antibiotics and are
being passed to humans via the food chain, which causes
health risks and reduces the efficacy of important antimicrobial drugs. These problems are further compounded by the
overall loss of genetic diversity in agriculture.
Many people question the long-term ecological sustainability of this system and its contributions to environmental
destruction, global climate change, and the worldwide
depletion of fossil fuels. As a result, increasing attention has
Chapter 6 • Agriculture
THE VON THÜNEN MODEL
One of the first and most influential models in economic geography concerned agricultural land use. It was proposed
by Johann von Thünen, a German estate owner interested
in economic theory and local agricultural conditions, in his
book The Isolated State, published in 1826, one of the first
models in economic geography. From his experiences as an
estate manager, von Thünen observed that identical plots of
land would be used for different purposes depending on
their accessibility to the market. Von Thünen’s aim was to
uncover laws that govern the interactions of agricultural
prices, transport costs, and land uses as landlords sought to
maximize their profits.
The concept of economic rent, also called location rent,
a relative measure of the advantage of one parcel of land
over another, is central to von Thünen’s model of agricultural land use. Differential rents may result from variances in
productivity of different parcels of land and/or variances in
the distance from the market. Von Thünen demonstrated that
rent is the price of accessibility to the market. In other
words, rents decline with the distance from a market center.
To explain agricultural land use, von Thünen described
an idealized agricultural region about which he made certain
assumptions. He envisioned an isolated state with a large
city serving as the only market. A uniform plain surrounded
the city. There were no extraneous disturbances in this idealized landscape; social classes and government intervention
were absent. Transport to the central town increased at a rate
proportional to distance. He concluded that near the town
will be grown those products that are heavy or bulky in relation to their value and that are consequently so expensive to
transport that the remoter districts are unable to supply
them. With increasing distance from the town, the land will
progressively be given over to products cheap to transport in
relation to their value. Farmers near the central market pay
lower transport costs than farmers at the margin of production. Farmers recognize this condition, and they know that it
is in their best interest to bid up the amount that they will
pay for agricultural land closer to the market. Bidding continues until bid rent equals location rent. At that price, farmers recover production and transport costs and landowners
receive location rents as payments for their land.
Competitive bidding for desirable locations cancels income
differentials attributable to accessibility. The bid rent, or the
trade-off of rent levels with transport costs, declines just far
enough from the market to cover additional transport costs;
hence, farmers are indifferent to their distances from the
market. Location rent for any crop can be calculated by
using the following formula:
Rk = e(p - a) - efk
where
R = location rent per unit of land at distance k
e = output per unit of land
k = distance to the market
p = market price per unit of output
a = production cost per unit of product (including
labor)
f = transport rate per unit of distance per unit of output
Different bid rent curves for different crops (or land uses in
general) reflect how competitive or profit maximizing they
are at different distances from the market (Figure 6.29).
Net Income (Dollars)
focused on sustainable agriculture, which promotes
social, ecological, and economic health for food- and fiberproducing land and communities. Numerous locally based,
low-input and knowledge-intensive farm systems exist that
follow the principles of sustainable agriculture. Sustainable
agricultural systems are often referred to as “alternative,” yet
this is a misnomer as these approaches are actually quite
normal and are practiced by millions of farmers worldwide
in the developing world.
Approaches that follow the principles of sustainable
agriculture include organic farming, agroecology, holistic
management, urban gardening, community-supported agriculture, and natural systems agriculture. The overwhelming
similarity among sustainable agricultural systems is their reliance on local knowledge and their minimal ecological impacts. The knowledge that local farmers possess represents
a rich and reliable source of information regarding agroecosystems and helps to replace some of the costly external
inputs found in industrialized agriculture. In sustainable
agricultural systems, farmers’ local knowledge can improve
nutrient cycling; crop productivity; profitability; and the
conservation of soil, water, energy, and biological resources.
Some of these savings are achieved in combination with
the reduction or elimination of external, nonlocal, and nonrenewable inputs (e.g., oil, pesticides), which often have
associated financial and environmental costs. Sustainable
agricultural systems are often relatively labor-intensive.
Almost any farmer worldwide can incorporate sustainable
agricultural approaches into existing operations. Indeed,
many people believe that sustainable agriculture will be
necessary in future food production.
181
50
40
Vegetables
Dairying
30
Beef
Production
20
10
10
20
30
40
50
Kilometers from Market
FIGURE 6.29 The von Thünen model illustrates why rents decline
with accessibility and how competing land uses maximize rents.
182
The World Economy: Geography, Business, Development
When the rent gradient is located around the market town, it
becomes a rent cone, the base of which indicates the extensive margin of cultivation for a single crop grown at a single
intensity. Concentric rings or belts will form around the
town, each with its own particular staple product. From ring
to ring, the staple product will change.
Von Thünen was acutely aware that many conflicting
factors—physical, technical, cultural, historical, and
political—would modify the concentric patterns of
agricultural land use. He modified some of his initial
assumptions—equal transportation costs in all directions,
for example—to approximate actual conditions more
closely. Although he retracted the condition of a singlemarket town, he did not elaborate on the effects of several
competing markets and a system of radiating highways.
We can presume, however, that the tributary areas of
competing markets would have a variety of crop zones
enveloped by those of the principal market town and that
a radiating highway system would have produced a
“starfish” pattern.
Summary
The invention or discovery of agriculture, roughly around
10,000 B.C., in several parts of the world marked a momentous change in how human beings live, enabling settled
communities, class-based societies, the state, and a more specialized division of labor than hunting and gathering, which
had lasted 95% or more of the span of human existence.
All people depend on agriculture for their well-being,
but in our agricultural pursuits, we necessarily modify the
land. The production of agricultural landscapes thus involves the large-scale transformation of nature in many
ways. When geographers speak of agricultural regions,
they refer to the artificial division of the world among a variety of socially produced farming types. The most intriguing aspect of farming regions is not their number or extent
but the similarity of land-use decisions farmers make within them. After reviewing agricultural origins and dispersals,
we identified basic factors that influence agricultural landuse patterns: site characteristics, cultural preferences and
perceptions, systems of production, and relative location.
Agriculture in developing countries is primarily of
the subsistence variety. Subsistence agriculture includes
shifting cultivation, intensive farming, and pastoral nomadism. Developing countries often have more than 50%
of their labor force engaged in agriculture and use relatively
little mechanized equipment.
By contrast, agriculture in developed countries employs a small percentage of the labor force and uses largescale mechanized equipment and large inputs of energy
and fertilizers. While outputs per hectare are comparable
to intensive farming and even somewhat less, outputs per
worker are as much as 50 times greater. The industrialization of agriculture—a process that is still ongoing in much
of the world today—freed millions from the boring and arduous toil of the farm. Farmers who raise crops and livestock on huge farms are part of a vast agricultural system
that includes machinery manufacturers; fertilizer, pesticide,
and energy suppliers; grain mills and slaughterhouses;
food processors; and wholesale and retail distributors.
Although mixed crops and livestock farms are the most
common in developed countries, other types of commercial agriculture also exist, including dairy farming; commercial grain farming, usually centered on wheat; cattle
ranching; Mediterranean horticulture; and truck farms.
Like many other sectors under capitalism, agriculture exhibits the powerful role of the state in shaping
markets and landscapes. Far from being a free market,
agriculture in most societies, including the United States,
is heavily subsidized by the government under programs
that reflect the political power of the farm lobby. Price
floors and subsidies contribute to the chronic overproduction and low prices that farmers typically face, and
subsidies go disproportionately to large corporate
agribusinesses that dominate the industry rather than to
small family farms.
Because industrialized agriculture is so enormously
energy-intensive, and because it has serious environmental
consequences due to the energy and chemicals that it relies upon, the long-term ecological viability of commercial
farming has come under question. In response, many
farmers around the world have experimented with sustainable agricultural practices, which utilize fewer chemicals,
less energy, more local inputs, more labor, and more local
knowledge. There is a wide variety of types of sustainable
agriculture, but many have been shown to be as productive as commercial agriculture with far lower environmental
impacts.
One theory that helps us to understand the local
organization of agriculture was formalized by Johann
Heinrich von Thünen in the early nineteenth century. We
described the model that von Thünen developed to explain patterns of local land use. We then presented some
of the conclusions that can be drawn from this model:
(1) There is an inverse relationship between location
rent and transport costs; (2) there is a limit to commercial farming on a homogeneous plain with an isolated
market town at its center; (3) land values and intensity of
land use increase toward the market; and (4) crop types
compete with one another and are ordered according to
the principle of the highest economic rent. We saw how
the basic von Thünen principles can be applied to
agricultural land-use patterns at scales ranging from the
village to the world. Contemporary von Thünen effects
at the microscale are best observed in the developing
world, where localized circulation systems provide
a transport setting similar to that of early nineteenthcentury Europe.
Chapter 6 • Agriculture
183
Key Terms
agribusiness 168
agricultural subsidies 178
capital-intensive
production 168
cattle ranching 175
commercial agriculture 169
dairy farming 171
double cropping 167
feedlots 175
food stamp program 180
four-field rotation
system 170
intensive subsistence
agriculture 166
labor-intensive
production 164
land degradation 160
Mediterranean
agriculture 176
mixed crop and livestock
farming 172
parity price 178
pastoral nomadism 165
peasant agriculture 164
plantation 158
price floor 178
shifting cultivation 164
slash-and-burn
agriculture 164
spring wheat 175
stage model of
agriculture 160
subsistence
agriculture 163
sustainable
agriculture 181
swidden agriculture 164
target pricing 179
Township and Range
System 158
truck farming 169
vertical integration 168
von Thünen model 181
Wheat Belt 173
winter wheat 175
Study Questions
1. What proportion of the U.S. population works in agriculture?
Why is it so low?
2. Describe the impacts of European colonialism on global patterns of agriculture.
3. What are plantations?
4. What is meant, exactly, by Boserup’s agricultural intensification?
5. Summarize the peasant mode of production.
6. What is the main characteristic of commercial agriculture?
7. How have the number and size of U.S. farms changed over
time?
8. Describe the geography of U.S. agriculture.
9. What are the causes and impacts of agricultural subsidies?
10. How does sustainable agriculture differ from commercial,
industrialized forms of farming?
11. What is the von Thünen model and what does it explain?
Suggested Readings
Hart, J. 2003. The Changing Scale of American Agriculture.
Charlottesville: University of Virginia Press.
Rumney, T. 2005. The Study of Agricultural Geography. Lanham,
MD: Rowman and Littlefield.
Watts, M. 1996. “The Global Agrofood System and Late
Twentieth-Century Development.” Progress in Human
Geography 20:230–45.
Web Resources
About.Com Geography of Agriculture
http://geography.about.com/od/urbaneconomicgeography/
a/aggeography.htm
This site offers concise overviews of many geographical topics,
including several aspects of agriculture.
Life on the Farm
http://web2.airmail.net/bealke
What is it like to live on a farm? Visit Chuck Bealke’s virtual farm
and get his biweekly remembrance or comment on farm
life—much of it based on farming (soybeans, wheat, corn,
hay, and polled Herefords) west of St. Louis. Links to many
agricultural online resources.
National Agricultural Library (NAL)
http://www.nalusda.gov
The NAL is part of the Agricultural Research Service of the U.S.
Department of Agriculture and is one of four national libraries
in the United States. NAL is a major international source for
agriculture and related information.
U.S. Department of Agriculture Quick Stats
http://quickstats.nass.usda.gov/
This Web page provides information on the U.S. agricultural sector.
Log in to www.mygeoscienceplace.com for videos, In the
News RSS feeds, key term flashcards, web links, and self-study
quizzes to enhance your study of agriculture.
OBJECTIVES
쑺 To acquaint you with the major manufacturing
regions of the world
쑺 To summarize deindustrialization in the developed
world and the industrialization of parts of the
developing world
Chinese factory workers making garments illustrate
both the combination of labor and capital that lies
at the heart of the production process and the shift
of manufacturing employment to East Asia.
쑺 To reveal sector-specific dynamics through five
industry analyses
쑺 To show the trend toward flexible production
and flexible labor
쑺 To present the product life cycle
CHAPTER
Manufacturing
7
o manufacture is to make things—to transform raw materials into goods that satisfy needs and wants.
Manufacturing is crucial because it produces goods that sustain human life, provides employment, and generates
economic growth. It has played this role since the Industrial Revolution began in Britain in the late eighteenth
century, when manufacturing generated the working classes of Europe, North America, and Japan.
Geographers who study manufacturing emphasize the locational behavior of firms and the structures of the places
they create. First, we examine the nature of manufacturing, including the basic steps involved in the transformation of
raw materials into final products. Second, we study the major regions in the world that produce goods—North
America, Europe, and Japan. Manufacturing is highly unevenly located around the world. How did these clusters
come to exist? Third, we explore three crucial industries in more depth: textiles, automobiles, and electronics. Fourth,
we summarize the geography of U.S. manufacturing and the changes wrought by globalization. Fifth, the chapter introduces the notions of flexibility, post-Fordist production, and just-in-time systems, which have revolutionized the
manufacturing production and delivery process.
Manufacturing involves deciding what is to be produced, gathering together the raw materials and semifinished
inputs at a plant, reworking and combining the inputs to produce a finished product, and marketing the finished
product. These phases are called assembly, production, and distribution. The assembly and distribution phases
require transportation of raw materials and finished products, respectively. The production phase—changing the form
of a raw material—involves combining land, labor, capital, and management, factors that vary widely in cost from
place to place. Each of the steps of the manufacturing process has a spatial or a locational dimension.
Changing a raw material into a usable good increases its use or value. Flour milled from wheat is more valuable
than raw grain. Bread, in turn, is worth more than flour. This process is termed value added by manufacturing. The
value added by manufacturing is quite low in an industry engaged in the initial processing of a raw material. For
example, turning sugar beets into sugar yields an added value of about 30%. In contrast, changing a few ounces of
steel and glass into a watch yields a high added value—more than 60%. The cost and productivity of labor, and the
availability of skills, plays an important role in high value-added manufacturing.
T
MAJOR CONCENTRATIONS OF WORLD MANUFACTURING
Manufacturing capacity and employment are highly unevenly distributed around the world and go far to explain the
uneven spatial development that typifies the world economy. Four major areas account for approximately 80% of the
world’s manufacturing (Figure 7.1): North America; Europe; Western Russia and Ukraine; and parts of East Asia, notably Japan, South Korea, and China.
North America
North American manufacturing is largely centered in the northeastern and midwestern United States and southeastern
Canada, the North American Manufacturing Belt, which accounts for one-third of the North American population,
two-thirds of North American manufacturing employment, and one-half of its industrial output. The belt extends
from the northeastern seaboard along the Great Lakes to Milwaukee, where it turns south to St. Louis, then extends
eastward along the Ohio River valley to Washington, DC (Figure 7.2).
This area grew rapidly in the late nineteenth century, having access to raw materials from the continental interior
as well as European markets. As capital flooded in, much of it foreign, the Manufacturing Belt developed a large labor
185
The World Economy: Geography, Business, Development
186
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AND UKRAINE
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1,000 2,000 3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 7.1 Worldwide distribution of manufacturing. The four main manufacturing regions include the northeastern United States
and southern Great Lakes region, the northwestern European region, the eastern Soviet Union and Ukraine region, and the Japan/
South Korea region. See the text for a detailed elaboration of districts within each of these regions, as well as other manufacturing
regions shown as dots.
pool, often comprised of immigrants from Southern and
Eastern Europe. The transportation system included the
St. Lawrence River and the Great Lakes, which were connected to the East Coast and the Atlantic Ocean by the
Mohawk and Hudson rivers. This transportation system
allowed the easy movement of bulky and heavy materials.
Later, canals and railroads supplemented the river and lake
system. The first major factories in the belt—the textile
mills of the 1830s and 1840s—clustered along the rivers of
southern New England. When coal replaced water as a
power source between 1850 and 1870, and when railroads integrated the belt, factories were freed from the
riverbanks.
Between 1850 and 1870, many urban areas enjoyed
rapidly expanding industrial production. Manufacturing
employment in New York City, Philadelphia, and Chicago
soared more than 200% between 1870 and 1900. Factories
concentrated in large cities for a combination of the
following reasons: (1) They could be near large labor
pools, including unskilled and semiskilled immigrants; (2)
they could secure easy railroad and waterway access to
major resource deposits, such as the Appalachian coalfields and the Lake Superior–area iron mines; (3) they
could be near industrial suppliers of machines and other
intermediate products, which lowered transport costs; and
(4) they could be near major markets for finished goods.
In other words, agglomeration economies accounted
for the concentration of manufacturing activity in the
Manufacturing Belt. The highly concentrated pattern of
industrial production served the nation (and much of the
world) well for about 100 years—roughly the century
between 1870 and 1970.
Within the North American Manufacturing Belt, there
are several districts. The oldest is southern New England,
centered on the greater Boston metropolitan area. In
Connecticut, Rhode Island, Massachusetts, and southern
New Hampshire, textile and garment plants formed the
basic industries (Chapter 5) of many towns and cities
(Figure 7.3) since the early nineteenth century. Cotton was
brought from the Southern states to be manufactured into
garments, many of which were consumed locally and
some of which were exported to Europe. As the region developed economically, wages became steadily higher, and
the textile industry moved to the South in the early twentieth
century in a classic example of a new pattern of uneven
spatial development. Today, New England manufacturing
is centered around electrical machinery, fabricated metals,
and electronic products, including military goods. The
region is noted for highly skilled labor, with nearby
universities—including Boston College, Boston University,
Massachusetts Institute of Technology, and Harvard
University—providing the chief supply (see Figure 7.2).
The Middle Atlantic district includes the metropolitan
areas of New York, Baltimore, Philadelphia, and Wilmington,
Delaware. Industrial traffic from the Great Lakes terminates in New York City via the Mohawk and Hudson
rivers, and from the city, foreign markets and sources of
raw materials can be reached. The city is the largest
Chapter 7 • Manufacturing
Calgary
BC
Vancouver
MB
SK
AB
ON
QC
Winnipeg
Seattle
WA
45°
C
Portland
MT
ND
OR
ID
NY
40°
IA
NV
UT
NE
Denver
CO
l
lV
MO
KS
St. Louis
35°
KY
Greensboro
NC
Nashville
Oklahoma
City
V
Phoenix
San Diego
NM
Charlotte
TN
Tulsa
Chattanooga
AR
OK
SC
Atlanta
Birmingham
AL
MS
lll
GA
30°
Fort Worth
30°
Dallas
TX
Jacksonville
LA
FL
New Orleans
San
Antonio
TampaSt. Petersburg
Houston
Orlando
Miami
0
25°
0
120°
40°
VA
WV
10
35°
AZ
NH
MI
SD
San Francisco
B CA
Silicon
Valley
45°
Silicon
Strip Boston
Toronto
MA
3 Albany
Hamilton
CT 1 RI
11
Buffalo
Detroit Windsor
Milwaukee
2 New York
Cleveland PA
6
5
7
NJ
Pittsburgh
4
Chicago
IN
Philadelphia
OH
Baltimore
8
MD DE
Dayton
IL
9
Cincinnati
WI
WY
Salt Lake
City
VT
12
ll
A
ME
Montreal
MN
Los
Angeles
187
115°
Anglo-American Manufacturing Region
1 New England district
Electrical machinery
Machinery
Fabricated metals
Textiles
Electronic products
Apparel
2 Greater New York district
Apparel
Printing and publishing
Machinery
Food processing
Fabricated metals
Chemicals
3 Central New York district
Electrical machinery
Chemicals
Optical machinery
Iron and steel
4 Mid-Atlantic district
Apparel
Iron and steel
Chemicals
Food processing
Machinery
5 Pittsburgh-Cleveland district
Iron and steel
Machinery
Electrical equipment
Rubber
Machine tools
95°
6 Southeast Michigan district
Automobiles
Iron and steel
7 Lake Michigan district
Iron and steel
Fabricated metals
Machinery
Printing and publishing
Electrical machinery
8 Southwest Ohio-Eastern Indiana district
Iron and steel
Fabricated metals
Machinery
Electrical machinery
Paper manufacturing
9 Great Kanawha and Middle Ohio Valley district
Chemicals
Primary metals
Glass
10 St. Louis district
Transportation equipment
Iron and steel
Fabricated metals
Food processing
11 Ontario Peninsula district (Canada)
Iron and steel
Machinery
Chemicals
Food processing
12 St. Lawrence Valley district (Canada)
Pulp and paper
Primary metals (aluminum)
200
200
25°
400 MILES
400 KILOMETERS
90°
Southeastern Manufacturing Region
Textiles
Apparel
Transportation equipment
Furniture
Food processing
Lumber
Primary metals
Gulf Coast Manufacturing Region
Petroleum refining
Chemicals
Primary metals (aluminum)
Electrical machinery
Electronic products
Central Florida Manufacturing Region
Food processing
Electrical machinery
Electronic products
West Coast Manufacturing Region
A Los Angeles-San Diego district
Aircraft
Electrical equipment
Automobile assembly
Apparel
Petroleum refining
B San Francisco district
Electronic products
Food processing
Shipbuilding
Machinery
85°
75°
C Pacific Northwest district (Portland-Seattle,
Vancouver)
Aircraft
Lumber products
Food processing
Other Centers of Manufacturing
l Kansas City
Food processing
Automobile assembly
ll Minneapolis-St. Paul
Food processing
Machinery
Fabricated metals
lll Dallas-Ft. Worth
Transportation equipment
Food processing
lV Denver-Pueblo
Food processing
Chemicals
Iron and steel
V Phoenix
Electrical machinery
Electronic products
FIGURE 7.2 Manufacturing regions of the United States and Canada.
market and has the largest labor pool of the region.
Because of the enormous agglomeration economies it offers (Chapter 5), many corporate headquarters are located
there. Not only do the region’s infrastructure, financial
clout, and role as center of global corporations give the
New York district unparalleled proximity to trade with the
rest of the world, it also has access to the population
centers and manufacturing hubs of America (see Figure
7.2). It is also near financial, communications, and the
news and media industries, which are important for advertising and distribution. In addition, it is the headquarters of
the North American publishing industry: What Los Angeles
is to film, New York is to the book and magazine world.
The central New York and Mohawk River valley district,
including cities such as Buffalo, Rochester, Syracuse, Utica,
Schenectady, and Albany, produces electrical machinery,
chemicals, optical machinery, and iron and steel. These industries are concentrated along the Erie Canal and the
188
The World Economy: Geography, Business, Development
FIGURE 7.3 Textile mills dominated many
small towns and cities in New England
such as Lowell, Massachusetts; although
almost entirely gone today or used for
other purposes, they reflect an era when
that part of the United States was a major
textile producer.
Hudson River, the only waterway connecting the Great
Lakes to the U.S. East Coast. Abundant electrical power
produced by the kinetic energy of Niagara Falls provides
inexpensive electricity to this district and explains its
attraction for the aluminum industry, which requires large
amounts of electricity.
The Pittsburgh–Cleveland–Lake Erie district, centered
in western Pennsylvania and northeastern Ohio, is the oldest
steel-producing region in North America. Pittsburgh was
the original steel-producing center because of the coal
supplies in the nearby Appalachian Mountains and iron
ore deposits in northern Minnesota that could be accessed
via the Great Lakes system. Besides iron and steel, electrical equipment, machinery, rubber, and machine tools are
also produced in this region. Cleveland was long a major
producer of steel and automobiles, and Akron was for
decades the rubber-producing capital of the nation, the
world’s largest center of automobile tires and rubber parts.
The western Great Lakes industrial region is centered
on Detroit in the east and Chicago in the west (see Figure
7.2). Toledo and Milwaukee were long known for the
production of transportation equipment, iron and steel,
automobiles, fabricated metals, and machinery. Detroit
and surrounding cities, of course, were for many years the
world’s leaders in automobile manufacture, and Chicago
has produced more railroad cars, farm tractors and implements, and food products than any other city in the United
States. The convergence of railroad and highway transportation routes in this area makes it readily accessible to
the rest of the country and a good distribution point to a
national market.
Canada’s most important industrial region stretches
along southern Ontario near the St. Lawrence River Valley,
on the north shore of the eastern Great Lakes (see Figure
7.2). This area has access to the St. Lawrence River–Great
Lakes transportation system, is near the largest Canadian
markets, has abundant skilled labor, and is supplied with
inexpensive electricity from Niagara Falls. Iron and steel,
machinery, chemicals, processed foods, pulp and paper,
and primary metals, especially aluminum, are produced in
this district. For example, Toronto is a leading automobileassembly location in Canada, and Hamilton is Canada’s
leading iron and steel producer.
The 1960s marked the start of the steady gain of
manufacturing employment in the Sunbelt, including the
South and parts of the Southwest. Labor costs in the South
were often lower because its labor force was less skilled
and less unionized, in part because Southern states are
“right-to-work” states, meaning that unions cannot force
employees at an establishment to join. The Southeastern
manufacturing region of the United States stretches from
central Virginia through North Carolina, western South
Carolina, northern Georgia, northeastern Alabama, and
northeastern Tennessee (see Figure 7.2). It wraps around
the southern flank of the Appalachian Mountains because
of poor transportation connections across the mountains.
Textiles are the main product, the industry having moved
from the Northeast to the South to take advantage of less
expensive, nonunion labor. Transportation equipment,
furniture, processed foods, and lumber are also produced.
Aluminum manufacturers moved to this region because of
the inexpensive electricity produced by the more than 20
dams built by the Tennessee Valley Authority during the
Great Depression. Birmingham was long the iron and steel
center of the southeastern United States because of the
plentiful iron ore and coal supplies nearby, although it
never rivaled the large centers of the north such as
Pittsburgh. The region is also the primary producer of
American textiles.
The Gulf Coast manufacturing region stretches from
southeastern Texas through southern Louisiana, Mississippi,
and Alabama, to the tip of the Florida panhandle, including
cities such as Houston, Baton Rouge, Mobile, and
Pensacola. Because of nearby oil and gas fields, petroleum
Chapter 7 • Manufacturing
refining and chemical production are important here. The
region also produces primary metals, such as steel in
Birmingham, as well as aluminum, electrical machinery, and
electronic products.
The expansion of manufacturing in the West is not
easily explained by low labor costs. California is known
for its relatively high labor costs, yet it has registered substantial increases in manufacturing employment since
World War II. In California, labor costs were less important
than the appeal of the physical environment and the role
of the federal government (particularly defense spending).
The West Coast manufacturing district does, however, represent an outstanding example of industrial restructuring
in response to economic crisis and labor unrest. The Los
Angeles–San Diego district has been successful in negotiating the transition from older forms of manufacturing to
newer ones. Since the 1960s, the district has shed much of
its traditional, highly unionized heavy industry, such as
steel and rubber. At the same time, it has attracted a cluster of high-tech industries and associated services, centered on electronics and aerospace and tied strongly to
enormous defense and military contracts from the U.S.
government.
In the 1930s, the aerospace industry chose the greater
Los Angeles–San Diego district in southern California because favorable weather much of the year meant unimpeded test flights and savings on heating and cooling the
large aircraft plants. Federal government subsidies during
World War II reinforced this choice. Because of the myriad
electronic parts and equipment and the associated hightech sensing and navigational devices required in aircraft
manufacture, segments of the electronics industry were
also attracted to this region and became anchored there
30 years later. Today, aircraft, apparel manufacture, and
petroleum refining are important in Los Angeles; San
Diego also specializes in pharmaceuticals, biotechnology,
and military equipment.
The San Francisco Bay Area is another important West
Coast manufacturing region, particularly computer hardware and software. Silicon Valley, the world’s largest manufacturing area for semiconductors, microprocessors, software, and computer peripherals, is located just south of
San Francisco in the Santa Clara Valley (Figure 7.4).
The Pacific Northwest district includes the cities of
Seattle, Washington, and Portland, Oregon. Boeing Aircraft
is the single largest employer, followed closely by the
paper, lumber, and food-processing industries. More recent additions include Microsoft, the giant of the software
industry.
Europe and Russia
Europe has a number of the world’s most important industrial regions (Figure 7.5). They are located in a north–south
belt starting in Scotland, extending through southern
England, continuing from the mouth of the Rhine River in
the Netherlands, through the Ruhr region in Germany,
through northern France, to northern Italy. Good supplies
189
FIGURE 7.4 San Jose, California. The growth of computer software
has established San Jose, capital of Silicon Valley, as California’s
third- and the United States’ eleventh-largest city.
of iron ore and coal, and highly skilled supplies of labor,
fuel these industrial regions.
Although the Industrial Revolution started in Britain in
the mid-eighteenth century based on textile and woolen
manufacture, many other countries have since learned to
produce their own iron, steel, and textiles. The world currently has an oversupply of these items and the market for
British goods has decreased substantially. Britain’s overall
global competitiveness has been reduced by its outmoded
factories, high labor costs, slow productivity growth, and
deteriorating infrastructures. In contrast, when Germany
and Japan rebuilt after World War II, they were able to
modernize their plants and industrial processes that had
been destroyed during the war with new capital stock
(Chapter 5). As a result, Germany and Japan became major
industrial successes in late twentieth century, while Britain,
more so than any other modern industrialized country, has
suffered persistent industrial decline.
The largest European manufacturing region today is in
the northern European lowland countries of Belgium and
the Netherlands, northwestern Germany, and northeastern
France, where the Rhine and Ruhr rivers meet. This
region’s economic backbone has been the iron and steel
industry because of its proximity to coal and iron ore.
Production of transportation equipment, machinery, and
chemicals helped lead Western Europe into the industrial
age. The Rhine River, which is the largest waterway of
European commerce, empties into the North Sea in the
Dutch city of Rotterdam. Because of its excellent location,
Rotterdam became one of the world’s largest ports.
The Upper Rhine–Alsace-Lorraine region is in southwestern Germany and eastern France. Because of its central location, this area is well situated to be a distribution
hub to population centers throughout Western Europe.
The main cities on the German side include Frankfurt,
Stuttgart, and Mannheim. Frankfurt became the financial
and commercial capital of Germany and the center of
its railway, air, and road networks. Stuttgart is known
for its precision goods and high-value, high-volume,
The World Economy: Geography, Business, Development
190
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40°E
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Newer industrial areas
Helsinki
Stockholm
a
k
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ag
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OCEAN
at
te g
Kat
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Dublin
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Hearth Area
of Industrialization
The English Midlands
Saxon
Triangle
London Industrial Area
Meuse
Paris
Basin
Upper Silesia
The Ruhr
annel
English Ch Sambre-
Stuttgart
SaarLorraine
Munich
Vienna
Swiss
Plateau
Lyon
Toulouse
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Milan
Po Valley
Bilbao
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Belgrade
A
dr
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a
Barcelona
Dardanelles
ge
Ae
Bari-Brindisi
an
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a
Se
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Strait of
Gibraltar
10°W
Sea
20°E
30°E
FIGURE 7.5 European manufacturing regions. Much European manufacturing takes place in a linear belt from Scotland to the
Midlands of Britain, to the south, including the London area. This belt continues onward from the low countries of Belgium,
Luxembourg, and the Netherlands, south along the Rhine River, including portions of France and Germany, and into northern Italy.
These areas became major manufacturing regions not only because of the concentration of skilled laborers but also due to the
availability of raw materials, principally coal and iron ore. In addition, good river transportation was available, as well as large
consumer markets for finished products.
manufactured goods, including Mercedes Benz, Porsche,
and Audi automobiles. Mannheim, located along the
Rhine River, is noted for its chemicals, pharmaceuticals,
and inland port facilities. The western side of this district,
Alsace-Lorraine in France, produces a large portion of the
district’s iron and steel.
The Po River valley in northern Italy encompasses
Turin, Milan, and Genoa; it encompasses only one-fourth
of Italy’s land but more than 70% of its industries and 50%
of its population. This region specializes in iron and steel,
automobiles, textile manufacture, and food processing.
The Emilia-Romagna region is Italy’s high-technology center (Figure 7.6), generating a number of high-value-added
textiles, industrial ceramics, processed foods, and electronic
equipment. The Alps, a barrier to the efficient distribution
of German and British industrial products, give the Italian
district a large share of the Southern European market as
well as cheap hydroelectricity.
In Russia, the Moscow industrial region takes advantage of a large, skilled labor pool as well as a large market.
It is known for its output of textiles: linen, cotton, wool,
and silk fabrics. East of Moscow is the linear Volga region,
extending northward from Volgograd (formerly Stalingrad)
astride the Volga River. The Volga, a chief waterway of
Russia, is linked via canal to the Don River and thereby to
the Black Sea. This industrial region continued to develop
Chapter 7 • Manufacturing
FIGURE 7.6 Italy’s Emilia-Romagna area, Europe’s largest
conglomeration of high-technology firms, produces a variety of
high-quality items ranging from shoes to electronics. It exemplifies
the regional basis of competitive advantage and the critical role
of agglomeration economies.
80°
0°
70°
Arctic
North Pole
Circle
ARCTIC OCEAN
°
60°
ATLANTIC
OCEAN
0°
40
14
°
NORTH
SEA
60°
80°
°
120
SE
Other manufacturing
center
KARA
SEA
A
50°
IC
Major manufacturing
region
LAPTEV
SEA
BARENTS
SEA
BALT
EAST SIBERIAN
SEA
60°
IT AL Y
180°
Em ilia - Ro m a g n a
r e g io n
70°
during World War II because it was just out of reach of
the invading Nazi army that occupied Ukraine. It is the
principal location of substantial oil and gas production
and refining. Recently, a larger oil and gas field was discovered in West Siberia. Nonetheless, the Volga district is
Russia’s chief supplier of oil and gas, chemicals, and related
products.
The Ukraine industrial region relies on the rich coalfield deposits of the Donets Basin. The iron and steel
industry base is the city of Krivoy Rog, with nearby Odessa
the principal Black Sea all-weather port (Figure 7.7). The
area is collectively known as Donbass. Like the German
Ruhr area, Ukraine’s industrial district is near iron ore and
coal mines, a dense population, and a large agricultural
region and is served by good transportation facilities.
Just east of the Volga region are the Ural Mountains
that separate the European and Siberian parts of Russia
(see Figure 7.7). The Urals have large deposits of industrial
minerals, including iron, copper, potassium, magnesium,
salt, tungsten, and bauxite. Although coal must be imported
from the nearby Volga district, the Urals district provides
Russia with iron and steel, chemicals, machinery, and fabricated metal products. The Kuznetsk Basin centered on
the trans-Siberian railroad, is the chief industrial region of
Russia east of the Urals. Again, as in the case of Ukraine
and the Urals districts, the Kuznetsk industrial district relies
on an abundant supply of iron ore and the largest supply
160
Bologna
CENTRAL REGION
EASTERN
UKRAINE
BL
VOLGA REGION
Solikamsk
Kazan
Donetsk
AC
SEA OF
OKHOTSK
Moscow
Krivoy Rog
Kuybyshev
URALS
KUZNETSK
BASIN
K
SE
Volgograd
A
Lake
Baikal
FAR EAST
REGION
°
40
CASPIAN
ARAL
SEA
SEA
SOUTH TAJIK
Lake
Balkhash
0
300
600 MILES
°
30
0
300
191
600 KILOMETERS
FIGURE 7.7 Manufacturing regions of Russia, Ukraine, and Central Asia.
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The World Economy: Geography, Business, Development
FIGURE 7.8 Firmly linked to the global economy
by its reliance upon international trade, Japan’s
economy is heavily export-oriented, as demonstrated by these cars waiting on loading docks.
But Japan's experience over the past two decades
is a cautionary example, especially to fast-aging
European economies. The country's financial
crash in the early 1990s contributed to a slump
in productivity growth. Soon afterward, the
working-age population began to shrink. A series
of policy mistakes caused the hangover from
the financial crisis to linger. The economy failed
to recover and deflation set in. The result has
been a combination of weak demand and
slowing supply.
of coal in the country. The Kuznetsk Basin is a result of the
grand design of former Soviet city planners, who poured
heavy investment into this region, hoping that it would
become self-perpetuating and eventually the industrial
supply region for Soviet Central Asia and Siberia.
East Asia
In the post–World War II period, Japan set about rebuilding itself into a potent economic power, and by the late
twentieth century, Japan’s output had increased dramatically in several manufacturing sectors. Today, it has the
third-largest gross national product (GNP) in the world
and is the world’s leading producer of electronics, steel,
commercial ships, and automobiles (Figure 7.8).
Compared to the natural resources found in the United
States and Britain, Japan is much less well off. Except for
coal deposits in Kyushu and Hokkaido, Japan is practically
devoid of significant raw materials, depending heavily on
imported raw materials for its industrial growth. Human resources, however, are not scarce. There are 126 million
Japanese, one-quarter of whom are crammed into an urbanindustrial core near Tokyo (Figure 7.9). A strong work
ethic combined with a high level of collective commitment,
a first-rate educational system, and innovative government
policies produced an economy after World War II that
achieved a highly competitive position in the world economy. Since the 1990s, however, Japan has suffered from
persistent economic stagnation, in part because it has
failed to adjust to the rapidly changing circumstances of
globalization. Japan’s example illustrates how globalization
produces a steady series of winners and losers across the
planet in different times and places.
Although permanent workers in large firms are well
paid, especially in relation to part-time workers in small
and medium-sized firms, the relative cost of labor is lower
in Japan than in many other industrial countries. Savings
and profits are directed by the state toward whatever goals
are set forth by a unique collaborative partnership between
Japan’s famous Ministry of International Trade and Industry
(MITI) and private enterprise. Under MITI’s guidance,
Japan has subsidized research and relocated industries
such as steel making and shipbuilding “offshore assembly”
in the newly industrializing countries (NICs), where labor
costs are considerably lower.
Countries such as South Korea and Singapore have
developed their own higher-value-added industries (e.g.,
consumer electronics). South Korea, with a manufacturing
capacity centered on Seoul, has become the eighth-largest
140°
145°
Cities of 1 Million
or More Inhabitants
Hokkaido
Cities of Fewer Than
1 Million Inhabitants
Sapporo
Core Region
Primary IndustrialUrban Area
40°
Secondary IndustrialUrban Area
JAPAN
Honshu
SOUTH
KOREA
Tokyo
35°
Yokohama
Kobe
Kyoto
Shimonoseki
Kitakyushu
Nagoya
Osaka
Shikoku
0
100
200 MILES
Kyushu
0
130°
135°
100
140°
FIGURE 7.9 Japan’s manufacturing core region.
200 KILOMETERS
145°
Chapter 7 • Manufacturing
economy in the world, a major producer of electronic
goods, steel, autos, and ships. And, of course, China,
which began to industrialize in the 1980s, has become a
powerhouse in its own right, the world’s second-largest
economy. With light manufacturing centered on Hong
Kong and Guangdong province in southern China and
stretching along its Pacific Coast, China is the world’s
largest producer of steel, concrete, apparel, toys, and,
increasingly, many other manufactured goods. To fuel
its growth, China uses enormous amounts of coal and
is now the world’s largest producer of the gases
linked to global climate change. Similarly, the island of
Taiwan is an important center for apparel and electronics production.
DEINDUSTRIALIZATION
As capitalism underwent one of its periodic restructurings,
a new international division of labor arose in the late
twentieth century, the rate of world economic growth
declined, and the long boom period following World War II
drew to a close. This round of restructuring started with a
deep recession in 1974–1975 following the first oil shock
in 1973. One of its most visible effects in the advanced
economies was deindustrialization, the decline in manufacturing capacity that is typically reflected in the loss of
manufacturing jobs. As numerous corporations restructured or went out of business in a climate of intense international competition, millions of workers were laid off.
Deindustrialization affected all of the world’s developed
economies to a greater or lesser extent (Figure 7.10).
Britain, France, Germany, Canada, the United States, and,
to a lesser extent, Japan, all lost tens of millions of wellpaying jobs.
In the United States, in the late twentieth century all
states in the Manufacturing Belt experienced job loss in
manufacturing, and virtually all states in the South and the
West registered manufacturing job gains (Figure 7.11). The
deindustrialization in the Manufacturing Belt that resulted
in increases in manufacturing employment in new industrial areas of the Sunbelt reflected another round of uneven
spatial development, as some areas were abandoned by
capital and others attracted it. As manufacturing plants
closed, once-vibrant Manufacturing Belt cities such as
Detroit and Youngstown, Ohio, were turned into economically stagnant regions, with devastating economic and social impacts on their communities. Many of its inner-city
areas are littered with closed factories, bankrupt businesses,
depressed real estate, and struggling blue-collar neighborhoods. Not surprisingly, poverty rates soared in such
communities, as did problems in the housing market, retail
trade, and local services as the multiplier effects of closed
factories spread through interindustry linkages (Chapter 5).
The effects of disinvestment on workers and their
communities have been devastating. Victims of plant closings sometimes lose not only their current incomes but
often their accumulated assets as well. When savings run
out, people lose their ability to respond to life crises and
often suffer depression and marital problems. Although
job losses occurred in many occupations, some groups are
more vulnerable than others. Unskilled workers are particularly likely to bear the costs of globalization, including job
displacement. African American workers, many of them
unskilled or semiskilled, were particularly hard hit, and by
driving up unemployment, the deindustrialization of the
inner city was largely responsible for the creation of impoverished ghetto communities. However, some old industrial
cities—Pittsburgh, for example—have successfully built
Deindustrialization of Employment Across the Industrialized World
100
Percent
80
60
40
20
0
1965 2006
1965 2006
1965 2006
1965 2006
1965 2006
1965 2006
1965 2006
1965 2006
1965 2006
United
States
Canada
Australia
Japan
France
Italy
Netherlands
Sweden
United
Kingdom
Manufacturing
Other industry
193
Agriculture
Services
FIGURE 7.10 Deindustrialization of employment across the industrialized world since the 1960s has been part of a massive structural
transformation in the nature of capitalism, reducing manufacturing to a small share of the total labor force.
194
The World Economy: Geography, Business, Development
PERCENTAGE
CHANGE IN
MANUFACTURING
EMPLOYMENT
(1960–1970)
PERCENTAGE
CHANGE IN
MANUFACTURING
EMPLOYMENT
(1980–1990)
60–85
20–35
40–59
1–19
20–39
-26–0
1–19
-12–0
PERCENTAGE
CHANGE IN
MANUFACTURING
EMPLOYMENT
(1970–1980)
PERCENTAGE
CHANGE IN
MANUFACTURING
EMPLOYMENT
(1990–2000)
60–124
60–65
40–59
40–50
20–39
20–35
1–19
1–19
-12–0
-26–0
FIGURE 7.11 Changes in U.S. manufacturing employment by decade, 1960–2000. The steady losses in the northeastern Manufacturing
Belt and the rise of Sunbelt producers reflected the sustained impacts of globalization, technological change, and the shift to lowercost, less-unionized parts of the country. The microelectronics revolution and information technology allow firms much greater
locational flexibility than in the past and contribute to the low-density, decentralized landscapes of industrial as well as urban areas.
new bases for employment in service industries, and others,
such as Cleveland, show potential for doing so. Southern
New England, which had suffered high unemployment
rates throughout much of the post–World War II period,
underwent a new round of industrial expansion based on
electronics, which took advantage of its pool of highly
skilled workers.
Several factors underlie the decline in manufacturing
in the First World. First, the cost of wages in Europe and
North America is much higher than in the developing
world, creating an incentive for firms to save by relocating
abroad (Table 7.1). Firms will, of course, pay high wages
for skilled, productive labor (Chapter 5); however, many
developing countries that invested in education now have
a labor force whose skills and productivity rival those in
Europe, North America, and Japan. In addition to wages,
many industrial firms faced high pension costs for their
workers. In the United States, which lacks universal health
insurance, significant costs are associated with providing
health insurance and care. (Automobile companies, for example, spend, on average, more on health insurance per
car than it does on steel.) Second, technological changes
in manufacturing, which made it much more capitalintensive, steadily reduced the number of workers needed
per unit of output. Thus, although the United States lost
numerous manufacturing jobs, its manufacturing output
(as percent of gross domestic product) stayed almost constant. Third, although industrial firms reinvested in new
production techniques, they often failed to save and reinvest sufficiently in reseach and development to remain
competitive on the world stage, thus diminishing their
productivity in comparison to their competitors abroad.
TABLE 7.1 Hourly Wage Costs for Factory Workers,
U.S. Dollars, 2008
Norway
Denmark
Germany
Netherlands
Finland
Switzerland
Belgium
Sweden
Austria
Luxembourg
United Kingdom
France
United States
Australia
Ireland
Japan
Spain
Israel
South Korea
New Zealand
Singapore
Portugal
Taiwan
Mexico
Sri Lanka
Source: U.S. Bureau of Labor Statistics.
34.64
33.75
32.53
30.76
30.67
30.26
29.98
28.42
28.29
26.57
24.71
23.89
23.17
23.09
21.94
21.90
17.10
12.18
11.52
9.14
7.45
7.02
5.97
2.50
0.51
Chapter 7 • Manufacturing
Many firms instead spent their net revenues on high stock
dividends. Finally, inadequate public investment in education and infrastructure, including in the United States, led
to shortages of human capital and high transportation
costs, which lowered productivity growth.
Conversely, manufacturing employment and output
have increased sharply in lower-wage industrializing countries. Between 1974 and 2005, the advanced industrial
countries lost 35 million jobs, whereas the newly industrializing countries gained 29 million. The most rapid growth
of manufacturing output occurred in East and Southeast
Asia, the world region with the fastest rate of economic
growth since World War II. Japan, with high wages but low
labor militancy, set the model for much of this region, a
phenomenon sometimes called the “flying geese formation.” This notion compares industrialization to a flock of
birds flying in a V-formation, with Japan at the head, the
NICs such as South Korea, Taiwan, Hong Kong, and
Singapore closely behind, and other countries (Thailand,
Indonesia, Malaysia) forming a third generation of “tigers.”
However, even Japan has witnessed stagnation in its manufacturing base as its economy has moved steadily into
services. As the NICs industrialized, they acquired a capacity first in unskilled, light forms of manufacturing such as
textiles and garments, then in successively more skilled,
higher-value-added industries such as ships, steel, automobiles, and electronics.
The “sunrise” industries of the developing world
thus corresponded to the “sunset” industries of the West.
Deindustrialization in some places and industrialization
in others are mirror images of each other, both reflecting
the continual process of uneven development. It should
be remembered that these changes are massive and reshape the lives of hundreds of millions of people, lifting
many out of poverty and catapulting them from rural
villages into industrial cities, often at great personal cost
and suffering.
THE DYNAMICS OF MAJOR
MANUFACTURING SECTORS
Globalization occurs differently in different industries.
Because various forms of manufacturing have their own
specific technical, labor, and locational requirements, and
because nation-states have approached different industries
from a variety of regulatory perspectives, the production
changes that have come about worldwide are unique to
each industry. Five industries—textiles and garments, steel,
automobiles, electronics, and biotechnology—dramatize
the similarities and differences that exist among manufacturing sectors as they create their own geographies, reflecting
and producing globalization in sector-specific ways.
Textiles and Garments
The textile and garment industries are dramatic examples
of the globalization of manufacturing. Textile manufacture
195
FIGURE 7.12 Manufacturing Reeboks at the Lotus Plant,
Philippines.
is the creation of cloth and fabric; clothing manufacture
uses textiles to produce wearing apparel (Figure 7.12).
About one-half of textile output is used in apparel; the rest
goes into products such as carpets and industrial fabrics
(e.g., upholstery in cars). Textiles and garment manufacture
are the classic low-tech industry: unskilled, labor-intensive,
relatively little technological sophistication, small firms,
and few economies of scale (Chapter 5). The industry is
relatively easy to enter and exit and highly competitive,
leading producers to seek savings by paying very low
wages. Thus, textiles have long been among the most
brutally exploitative industries (Figure 7.13).
Textiles were the leading sector of the Industrial
Revolution, fueling the rise of a manufacturing base in
cities like Manchester, England, and providing grist for the
novels of Charles Dickens. Then, as today, the industry relied heavily on young women and child labor. By the early
nineteenth century, it began to expand to the rest of
Europe, including Lyon in France and northern Italy. In
the late nineteenth century, textile production arose in
Japan as part of its rapid modernization that began after
1868. In the United States, textile production generated the
manufacturing cities of southern New England and later
moved to the Piedmont states in the South, particularly
North and South Carolina, which remain the core location
of the rapidly shrinking American textile industry.
Secondary concentrations of garment manufacturing are
found in New York, a remnant of its heyday in the late
nineteenth and early twentieth centuries, as well as in
southern California, where sweatshops using immigrant
labor are common.
Textile and garment production in the economically
developed world declined steadily from the 1970s onward
as the industry was confronted with waves of cheap imports
from abroad. Lured by significantly lower wages in the
developing world (Figure 7.14), especially in East Asia, the
industry moved overseas (Figure 7.15). Today, major cotton
fabric producers include China, the world’s largest producer,
where the garment industry has grown explosively, and
196
The World Economy: Geography, Business, Development
FIGURE 7.13 In this textile factory in Fortaleza,
Brazil, women constitute the largest part of the
workforce. Brazil is a major exporter of textiles
to advanced industrial countries. Despite high
rates of growth in many Third World countries,
only a handful managed to narrow the gap
with the northern, industrialized countries.
Moreover, increased polarization between
the richer and poorer countries has been
accompanied by a rising trend in income
inequality within countries such as in Brazil.
The income share of the richest 20% has
grown almost everywhere, while those in
the lower ranks have experienced no rise in
incomes to speak of. Even the middle classes
have experienced little improvement.
India (Figure 7.16); in both, working conditions resemble
those of Britain 200 years ago. A small industry has sprouted
up in Central America, where sweatshops are found in
Honduras, Guatemala, and El Salvador. Everywhere, the industry is notorious for its exploitation of young, predominantly female labor, many of whom work long hours for
very low wages. By continually looking for new sources of
cheap, easily exploitable labor, this industry has exhibited a
very fluid geography over time, a pattern that continues in
the twenty-first century.
The steel industry has played an enormously important
role in the development of industrialized societies. Iron
and steel production generate a wide variety of outputs
essential to many other sectors as well, including, for example, parts for automobiles, ships, and aircraft; steel
girders for buildings, dams, and other large projects; industrial and agricultural machinery; pipes, tubing, wire, and
tools; furniture; and many others uses. The inputs into
Hourly Labor Costs in Clothing Manufacturing
in Various Countries
$18
$16
$14
$12
$10
$8
$6
$4
$2
Denmark
Germany
Belgium
Sweden
Netherlands
Austria
Finland
Italy
Japan
France
UK
USA
Ireland
Spain
Greece
Portugal
Argentina
Poland
South Korea
Hungary
Brazil
Czech Rep.
Turkey
Morocco
Romania
Egypt
China
India
Pakistan
Indonesia
Labor costs per hour
FIGURE 7.14 Hourly labor costs in clothing manufacturing
in various countries. China and other emerging nations
are lifting the global economy, but their strength threatens
to come at the expense of the United States and Europe.
The world economy expanded at 5% in 2010, with China
and several other developing countries growing at 9%, and
the United States at 3%, with Europe at 2%. Emerging
countries are benefiting from low-priced labor and
low-priced exports, fueled by artificially low-valued
currencies.
Steel
Chapter 7 • Manufacturing
steel making are relatively simple, including iron ore,
which is purified into pig iron; large amounts of energy,
generally in the form of coal; and limestone, which is
used in the ore purification process. Steel production is
a very capital-intensive process, requiring huge sums of
investment, and because the barriers to entry are high,
it has generally been very oligopolistic (Figure 7.17).
Involving highly skilled, almost entirely male jobs, it has
high multiplier effects. Transport costs have traditionally
been high in this sector, which has made it an ideal candidate for Weberian locational analysis (Chapter 5).
The historical geography of steel production includes
the important Midlands cities of Britain, such as Sheffield
and Birmingham, which were critical in the early stages of
the Industrial Revolution. A similar complex of steel production arose in the Ruhr region in Western Germany on
the banks of the Rhine River. In the northeastern United
States, the earliest iron and steel producers were very
small and localized, using wood and charcoal as fuel and
serving local markets. A number of changes in the third
Kondratiev wave of the late nineteenth century, however,
dramatically reshaped the industry. The Bessemer open
hearth furnace made the production of steel relatively
cheap, using huge amounts of energy in plants that were
open 24 hours per day. Geographically, the industry came
to center on the steel towns of the Manufacturing Belt, including, above all, Pittsburgh, which became the largest
steel producing city in the world. Other centers within this
complex included Hamilton, Ontario; Buffalo, New York;
Youngstown and Cleveland, Ohio; Gary, Indiana; and
Chicago. These locations allowed easy access to coal from
Appalachia, iron ore from Minnesota and upper Michigan,
FIGURE 7.15 A man in India weaving silk illustrates how this
process was done for centuries before the Industrial Revolution,
a method still practiced in many developing countries today.
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
Tropic of Cancer
20°
20°
160°
10°
PACIFIC
OCEAN
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
50°
0°
0°
60°
70°
80°
INDIAN
10°
10°
20°
140°
90°
20°
150°
OCEAN
10°
120°
COTTON WOVEN FABRIC
(SQUARE METERS)
20°
20°
150°
160°
CORAL SEA
20°
170°
20°
Tropic of Capricorn
30°
20 billion and above
30°
30°
40°
40°
50°
50°
30°
30°
30°
1 billion–3 billion
40°
50°
1–1 billion
Below 1
197
40°
40°
110° 120° 130° 140° 150° 160°
50°
0
0
1,000
1,000
2,000
2,000
3,000 MILES
3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 7.16 Worldwide distribution of textile manufacturing employment.
180°
198
The World Economy: Geography, Business, Development
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
Tropic of Cancer
20°
20°
PACIFIC
OCEAN
160°
10°
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
50°
0°
0°
60°
70°
80°
INDIAN
10°
10°
140°
90°
OCEAN
10°
120°
STEEL PRODUCTION, 1980
(MILLION METRIC TONS)
20°
20°
20°
150°
150°
160°
170°
CORAL SEA
20°
20°
20°
Tropic of Capricorn
111–199
30°
30°
30°
40°
40°
50°
50°
30°
30°
30°
10–99
40°
1–9
180°
110° 120° 130° 140° 150° 160°
Below 1
50°
40°
40°
50°
0
0
1,000
1,000
2,000
2,000
3,000 MILES
3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
FIGURE
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
40°
40°
OCEAN
30°
30°
30°
Tropic of Cancer
Tropic of Cancer
20°
20°
160°
10°
PACIFIC
OCEAN
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
50°
0°
0°
60°
70°
80°
INDIAN
10°
10°
STEEL PRODUCTION, 2008
(MILLION METRIC TONS)
20°
500
30°
100–199
10–99
40°
20°
Below 1
150°
160°
CORAL SEA
20°
170°
20°
Tropic of Capricorn
30°
30°
40°
40°
50°
50°
30°
40°
1–9
50°
150°
10°
120°
20°
20°
140°
90°
OCEAN
30°
30°
40°
110° 120° 130° 140° 150° 160°
50°
0
0
1,000
1,000
2,000
2,000
180°
3,000 MILES
3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 7.17 Worldwide steel production shifts between 1973 and 2008. In 1973, North America and Europe accounted for
90% of the world’s steel output. Production by 2008 had shifted dramatically to developing countries in Latin America, South
Asia, and East Asia. Total global steel output remained approximately the same during this period.
and cheap transportation via the Great Lakes and the railroads. By clustering there and taking advantage of the
agglomeration economies (Chapter 5) that such locations
offered, they had ready access to specialized pools of labor
and suppliers of parts and services. The industry became
increasingly oligopolized over time: For example, the rise
of the U.S. Steel Company under Andrew Carnegie put 30%
of the nation’s steel output in the hands of one firm in 1900.
The United States dominated the world’s steel industry
in the early and mid-twentieth century, producing as much
as 63% of the world’s total output after World War II.
However, new competitors that had recovered from the
war entered the industry in the 1960s, first in the rebuilt
factories of Europe (particularly Germany, France, and
Spain) and Japan, and later in some developing countries
(e.g., Brazil, South Korea) (Figure 7.18). The United States
saw a gradual decline in the share of the world steel it produced. By 2005, that share equaled 8.3% of the world total
(Figure 7.19). Conversely, the industry has flourished in
East Asia (Figure 7.20), particularly China, now by far the
Chapter 7 • Manufacturing
199
FIGURE 7.18 Steel exemplifies forms of
manufacturing that are highly capital-intensive,
relying on huge economies of scale to produce
their output profitably.
FIGURE 7.19 Decline in the U.S. share of world steel
output after World War II. America has not been able
to keep pace with China and other developing countries
in steel making because of the cheap, nonunion labor
available overseas.
Tracing 47 Years of Declining U.S. Share of
World Crude Steel Production, 1940–2005
65
63.7
Percent of World Production
60
50
46.6
43.2
40
39.4
30
26.2
26.0
20.1
20
16.4
15.5 11.6
14.2
10
10.5
0
1940
1950
1960
1970
9.8
1980
1990
8.3
2000 2005
Year
FIGURE 7.20 China, with its rapidly growing economy,
has become by far the world’s largest producer of steel,
followed by Japan, Russia, and the United States. In a
decade, China has gone from a huge, poor country
to an economic colossus. Although its median per capita
income, $6600 in 2010, is only one-seventh that of the
United States ($46,499), the sheer size of its economy
gives it a growing influence. Cheap labor; abundant
natural resources; and a huge demand for new
infrastructure of buildings, roads, airports, high-speed
trains, and dams have made it the leader in world steel
production.
Steel Production, 2009
600
550
450
400
350
300
250
200
150
100
50
Canada
UK
France
Spain
Mexico
Italy
Taiwan
Brazil
Turkey
Ukraine
Germany
India
South Korea
USA
Russia
Japan
0
China
Million Metric Tons (MMT)
500
200
The World Economy: Geography, Business, Development
world’s largest producer of steel, with Japan in second
place, Russia in third, and the United States in fourth.
These shifts are all reflective of the continual reproduction
of uneven development under capitalism.
The decline of the U.S. steel industry generated enormous problems for families living in the former steel
towns. Waves of plant closures in the 1970s and 1980s
generated high unemployment, rising poverty, depressed
property values, and out-migration. Today, former giants
of steel production in the Manufacturing Belt produce very
little steel; Pittsburgh produces none at all. Steel offers a
compelling example of the decline in industrial capacity.
Between 1970 and 2007, the North American and western
European proportions of global steel production declined
from 67% to 41%, whereas developing countries’ production levels increased from 10% to more than 33%. Many
steel-manufacturing firms have gone out of business as the
global steel-production capacity exceeds global demand.
Because of government subsidies, steel mills in some
countries, especially in Europe, have remained open in the
face of dwindling quotas. The U.S. government, however,
has been less willing to pay unemployment compensation
to displaced workers and has allowed the U.S. steel
industry to decline. Since the 1970s, U.S. production has
decreased 33%, whereas employment in the steel industry
has declined 66%.
The industry’s response to crisis, other than plant
closures, was both to call for protectionism from imports and
to restructure. The introduction of computerized technology
led to widespread changes in steel production, including the
emergence of highly automated “minimills” that use scrap
metal as inputs (Figure 7.21), are generally not unionized,
and produce specialized outputs for niche markets, all of
which are symptomatic of the growth of post-Fordist production (to be discussed later in this chapter).
FIGURE 7.21 Minimills producing steel
from scrap metal are more numerous
than large, integrated steel mills. They
are located near markets because their
main input is abundantly available
there.
Automobiles
From its inception at the dawn of the twentieth century,
the automobile industry has unleashed major changes on
cities and everyday life throughout the world. Originally,
Henry Ford standardized the European invention of auto
production, introducing the moving assembly line and a
highly detailed division of labor to make automobiles affordable to the middle class. He also paid high wages to
reduce turnover rates of his workers. So successful was his
model of production that what became known as
“Fordism” was widely imitated by other sectors of industry.
Ford’s success was centered in the Detroit region, adding
another layer of investment to the Manufacturing Belt.
Other than being Ford’s hometown, Detroit enjoyed
other locational advantages, including being the previous
center of the wagon and buggy industry, numerous partsproducing firms, the rubber-producing center in nearby
Akron, numerous rail lines and shipping routes that
brought raw materials across the Great Lakes, and a large
supply of skilled labor.
Throughout the twentieth century, the market expanded
dramatically as incomes rose and as Western cities, particularly in the United States, increasingly developed
around low-density suburban arrangements. Many auto
companies purchased mass transit lines and destroyed
them, as in Los Angeles, in order to force people to buy
cars. In the 1950s and 1960s, the construction of the federal
interstate highway system greatly enhanced the demand
for cars. As it matured, the auto industry underwent a
pronounced series of consolidations, becoming steadily
concentrated in a handful of highly capital-intensive
transnational corporations (TNCs), a classic example
of oligopolization (Figure 7.22). In no other industry do so
few companies dominate the world scene. For example,
125°
45°
40°
35°
35°
ATLANTIC
OCEAN
PACIFIC
OCEAN
30°
30°
75°
0
25°
120°
0
200
200
400 MILES
400 KILOMETERS
80°
95°
90°
85°
Chapter 7 • Manufacturing
201
1890–1900
1900–1910
1910–1920
1920–1930
1930–1940
1940–1950
1950–1960
1960–1970
1970–1980
1980–1990
Stearns
Duryea
Columbia
Rambler
Riker
Locomobil
Crestmobile
Autocar
Oldsmobile
Detroit Auto
Rapid
Winton
Stanley
Auburn Auto
Stearns
Standard
Marion
American
Jeffery
Pope
Thomas
Chalmers
StoddardDayton
Columbia
Maxwell
Sampson
Ford
Autocar
White
Studebaker
Pierce-Arrow
Packard
Diamond T
Oldsmobile
Cadillac
Buick
Reliance
Premier
Winton
Locomobile
Stanley
Simplex
Walter
Auburn Auto
Mason
IH
Chevrolet
GrahamPaige
Stearns
Willys
Overland
Edwards
Stutz
Jeffery-Nash
Waverly
Essex
Hudson
Thomas
Chalmers
Saxon
Dodge
Maxwell
Lincoln
Ford
Studebaker
Pierce-Arrow
Packard
Diamond T
Reo
GM
Winton
Locomobile
Stanley
Mercer
Duesenberg
IH
GM
Ford
GrahamPaige
Jewett
Stearns
Edwards
Willys
Stutz
Nash
Essex
Chalmers
Saxon
Maxwell
Chrysler
Dodge
Studebaker
Pierce-Arrow
Stanley
Durant
Mercer
Duesenberg
Auburn Auto
Cord
GM
Ford
Chrysler
GrahamPaige
Stutz
Hudson
Packard
Durant
Willys
Nash
Cord
GM
Ford
Chrysler
KaiserFrazer
Willys
Nash
Hudson
Packard
Studebaker
GM
Ford
Chrysler
KaiserFrazer
Willys
Nash
Hudson
Packard
Studebaker
GM
Ford
AMC
Chrysler
Studebaker
GM
Ford
AMC
Chrysler
GM
Ford
Chrysler
FIGURE 7.22 Oligopolization of the U.S. automobile industry. As the market expanded, larger firms could take advantage of economies
of scale to eliminate or swallow up smaller ones, leading to corporate concentration in fewer hands. The process reveals the market as a
battleground of firms, not simply a smooth mechanism coordinating supply and demand.
the world’s 10 leading automobile manufacturers produce
over 70% of the world’s automobiles. In the United States,
General Motors, Chrysler, and Ford account for 95% of national automobile output. However, the U.S. auto industry
has been steadily besieged by competition from abroad
and has suffered declining market share. Chrysler was purchased by the German firm Daimler-Benz, and in the wake
of the 2007–2009 financial crisis, General Motors went
bankrupt, saved from obliteration by massive federal
government bailouts. In two short years, between 2005
and 2007, the industry laid off 40,000 workers, mostly in
the greater Detroit area (Figure 7.23).
Worldwide automobile production extends across the
globe and has expanded in capacity as the growing middle
class in many developing countries seeks out cars. Figure
7.24 shows the world distribution of automobile production and assembly. Three major nodes of automobile production exist—Japan, the United States, and Western
Europe. In 2008, Europe accounted for 25% of the world’s
automobiles; Japan, 20%; and the United States, 19%. The
three developed regions of the world, East Asia, North
America, and Europe, accounted for 72% of the automobiles produced. Japanese firms also invested heavily in the
United States in the late twentieth century, setting up factories in much of the Midwest (Figure 7.25) that allowed
them access to the American market, low transport costs,
and freedom from fluctuating exchange rates and threats
of U.S. protectionism. Smaller production centers exist in
Brazil, Russia, South Korea, and India.
Electronics
Although its roots extend into the nineteenth century, the
electronics industry underwent enormous changes during
the microelectronics revolution of the late twentieth century.
Microelectronic technology is the dominant technology of
the present historical moment, transforming all branches
of the economy and many aspects of society.
U.S. AUTO PLANT CLOSURES, 2007-2010
City with closed parts and accessories plant
0
City with closed passenger car bodies plant
0
200
200
400 MILES
400 KILOMETERS
FIGURE 7.23 Job losses in automobiles in the United States, 2007–2010. The financial crisis that clobbered the U.S. and the world economy
was particularly acute in manufacturing, symbolized by the bankruptcy of General Motors and its federal bailout. The auto industry shed
more than 40,000 jobs in two years alone. In 2009, about 14 million cars were taken out of operation, 4 million more than rolled off the
assembly lines and onto the roads of America. That was the first time more cars were scrapped than sold since World War II. In 2008, GM and
Chrysler went through bankruptcy and were bailed out by the U.S. government. Sales fell over 20% in 2009 and 2010 as many consumers
held off buying new cars, because of fears of losing their jobs. Sales went up somewhat in 2011, but heavy competition from Japan, Europe,
and East Asia; high unemployment; a weak housing market; and toxic bank debt continue to hobble growth, and thus, new auto demand.
80°
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(in thousands)
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India 4.5%
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0
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China 21.6%
South Korea 6.6%
Germany 10.4%
0
500–1,000
100–500
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No data
Japan 14.3%
FIGURE 7.24 World distribution of automobile production and assembly. In 2009, Japan produced 11 million automobiles, which
was 19% of the world’s total output. In 1960, the United States produced half of the world’s total automobiles, but by 2009, that
proportion had dropped to 15%. In Europe, Germany, France, and Italy are the largest producers.
Chapter 7 • Manufacturing
Japanese-Owned
Firm
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FIGURE 7.25 Distribution of Japanese-owned automobile parts
manufacturing plants in the United States.
The radio was invented and produced as early as
1901, but the modern electronics industry was not born
until Bell Telephone Laboratories built the transistor in the
United States in 1948. The transistor supplanted the vacuum
tube, which had been used in most radios, televisions, and
other electronic instruments. The microelectronic transistor
was a solid-state device made from silicon that acted as a
semiconductor of electric current. By 1960, the integrated
circuit appeared, which was a quantum improvement
because transistors could be connected on a single small
silicon chip. By the early 1970s, a computer so tiny that it
could fit on a silicon chip the size of a fingernail came into
production. Thus, the microprocessor, each of which could
do the work of a roomful of vacuum tubes, was born. With
these devices, information could be converted from an
analog to a digital format in binary code, which made it
much easier for computers to process. The microprocessor
made possible the microcomputer, which in turn revolutionized the collection and analysis of information, particularly
office work. As the industry generated wave upon wave of
improvements, computing power and memory increased
exponentially (Figure 7.26).
As capacity, speed, and miniaturization increased, the
electronics industry discovered new applications, including calculators, electronic typewriters, personal computers,
industrial robots, aircraft-guidance systems, and combat
systems. New discoveries were applied in automobile
construction to improve guidance, safety, speed, and fuel
consumption. An entire new range of consumer electronics also became available for home and business use. The
electronics industry, like textiles, steel, and automobiles
before it, has come to be regarded as the modern touchstone of industrial success. Hence all governments in the
developed market economies, as well as those in the more
industrialized developing countries, provide substantial
support programs for the electronics industry, particularly
for microprocessors and computers.
For nearly two decades, from the 1960s through the
1970s, the United States dominated the field of semiconductor manufacture. However, by the 1990s, Japan took
over this role. Figure 7.27 shows world production of
electronic components, which includes semiconductors,
integrated circuits, and microprocessors. The field is dominated by Japan and the United States, with other significant production in Western Europe and Southeast Asia. In
2007, Japan accounted for 40% of the world production of
semiconductors; the United States, 21%; and Europe, 11%.
In Southeast Asia, South Korea, Malaysia, Taiwan, Thailand,
and China were significant manufacturers.
Moore’s Law
10,000,000,000
Dual-Core Itanium 2
Transistors on Circuit
1,000,000,000
Itanium 2
Itanium
100,000,000
Pentium 4
Pentium III
Pentium II
Pentium
486
10,000,000
1,000,000
386
286
100,000
10,000
1,000
8086
8008
8080
4004
1970 1975 1980 1985 1990 1995 2000 2005 2010
Date of Introduction
203
FIGURE 7.26 The spectacular growth in microelectronic
computing power and memory has revolutionized
contemporary capitalism, including manufacturing
and information-processing activities.
The World Economy: Geography, Business, Development
204
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$ MILLIONS
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Others
Europe
Japan
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States
5000
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ND = No Data
Antarctic Circle
FIGURE 7.27 World production of electronic components, including semiconductors, integrated circuits, and microprocessors. Japan
is the world’s leading producer of electronic components, followed by the United States, Germany, France, and the United Kingdom.
Growth in the electronics industry has been greatest in the Pacific Rim, with recent major centers of production developing in South
Korea, Malaysia, Taiwan, and Thailand.
The world manufacture of consumer electronics such as
televisions, computer peripherals, and microwave ovens
has shifted steadily to developing countries, especially in
East and Southeast Asia (Figure 7.28). Much of the television
production that formerly occurred in the United States,
Germany, and the United Kingdom now takes place in
China and Malaysia. Outside Asia and North America, Brazil
produces 87% of the televisions used in Latin America.
ARCTIC OCEAN
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SEA
PACIFIC
BAY OF
BENGAL
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WORLD PRODUCTION
OF TELEVISIONS
30°
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20°
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5,000
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MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 7.28 Worldwide television receiver production. East Asia has become the leading area in the manufacture of this
commodity.
Chapter 7 • Manufacturing
205
Case Study
Export Processing Zones
Export Processing Zones (EPZs), also known as Free
Trade Zones (FTZs), Special Economic Zones (SEZs),
Free Zones (FZs), Free Ports, and by other names, became
a global development tool in low-income nations in the
1970s—in Latin America, the Caribbean, Asia, and, to a
lesser degree, Africa—as innovations in international
transportation and communication of the 1960s and
1970s allowed transnational corporations to lower production costs by outsourcing part or all of production to
offshore locations. By the 1980s, almost all developing
nations had established at least one EPZ.
EPZs are locations for foreign enterprises and nodes
of international transportation. An EPZ is usually set up
by a government to promote and capture foreign direct
investment, international trade, technological transfer, and
industrial deepening. These zones give preferential treatment and incentives to attract foreign enterprises and investors. The usual benefits provided to foreign firms are
infrastructure, communication and financial services,
elimination of trade barriers such as tariffs and quotas, exemptions from production and trade-related taxes and
business regulations, friendly and simplified bureaucratic
requirements and procedures, elimination of labor laws,
and relaxation of environmental protections. Tax holidays, duty-free export and import, and free repatriation of
profits are regularly offered.
EPZs are instruments for increasing foreign currency
earnings, upgrading production technology, entering the
world market, and providing employment. With foreign
investment concentrating in these zones, the expectation
is that there will be a multiplier effect to locally linked
industries and a dispersal effect to the surrounding
regions. Apart from being the locations for attracting foreign business and international exchange, EPZs are also
demonstration centers for cultural borrowings from
around the world.
The division of the industrial production process
between corporate headquarters in home nations and
production branches overseas is the basis for EPZs. These
zones are designed to absorb international branch operations. Globalization gives rise to selective international
economic integration, and EPZs are the transnational connection points in developing nations. For example, the
Shenzhen SEZ in China was designated in 1979 when that
country was transforming from a socialist to a market
economy. It was the “window” to observe and learn from
free market operations and the “bridge” for linking to the
international economy. Shenzhen is an unusual EPZ in
that it replicates the same set of development objectives
and provisions, but it is as an experiment for a radical
economic systematic change that gives the SEZ a special
importance. Adjacent to Hong Kong, an international
market economy free port, Shenzhen adopted trade regulations and industrial practices freely from its neighbor. In
turn, Shenzhen’s institutions, regulations, administration,
and planning are used as models for the rest of China as
the country opens up its economy to the world.
Connecting to the global economy through Hong Kong
initially, Shenzhen has grown with export manufacturing
and spread the developmental effects to its northern
region, the province of Guangdong. The SEZ has industrialized the province’s economy and uplifted it from one of
the poorest provinces in the Socialist era to one of the
richest in the market era. Shenzhen has successfully
fulfilled the promises of the EPZ, but what is more, it has
become a transference point for foreign economic ideas
and practices to the nation, playing a major role in
marketing and internationalizing China’s economy.
Even though there are sufficient successful examples of EPZs to attest to their effectiveness, there are
nevertheless many counterarguments. In general, the
multiplier and regional effects of many EPZs have been
weak. The cost-effectiveness of direct government
investment and the indirect costs in relation to revenue
received have had poor results. Negative externalities
have been reported, especially environmental pollution.
One of the most frequently raised issues about EPZs
as instruments of national development strategy is the
competition among them. Since transnational firms seek
economically advantageous sites for outsourcing and
branch locations, and there are many suitable and available EPZs in the world, firms tend to seek out and
bargain for the most advantageous zone. EPZs are
forced to make their best offers to outbid their rivals.
This competitive process is not only limited to international rivalry; it also generates intensive contests between
EPZs within the same country.
The most controversial issue is labor practices.
International firms relocating their labor-intensive production segments are often opposed to labor unions and
minimum wage regulation. In order to be competitive,
EPZs tend to avoid enforcing these institutional practices. Working conditions are substandard and wages are
low. Most of the employment is for young women in
“dead-end jobs.” Often, EPZs do not offer new jobs, but
replicate local jobs. Foreign firms, with better resources
than the local firms, compete successfully at the expense
of local industries for the existing “best” workers.
206
The World Economy: Geography, Business, Development
Biotechnology
Biotechnology (or simply “biotech”) may be defined as the
application of molecular and cellular processes to solve
problems, develop products and services, or modify living
organisms to carry desired traits. Arising after the discovery
in 1973 of recombinant DNA, biotechnology has been a
rapidly growing industry worldwide, with extensive linkages to agriculture, health care, energy, and environmental
sciences. In 2008, the U.S. biotech industry (excluding
medical equipment firms) consisted of roughly 1500 firms
that employed 450,000 people and ranging in size from
single proprietorships to firms of more than 500 employees.
The mean national annual salary in the industry is $63,000,
which is well above the national average.
Venture capital is critical to making basic research in
biotechnology commercially viable. Most small biotech
firms lose money, given the high costs and enormous
amounts of research necessary to generate their output
and the long lag between research and development and
commercial deployment (generally on the order of 12–15
years of preclinical development). Only 1 in 1000 patented
biotech innovations leads to a successful commercial product, and that may take 15 years. Venture capitalists may invest in many biotech firms, and one biotech firm may receive funding from several venture capitalists. Above all,
venture capitalists look for an experienced management
team when deciding in which companies they are willing
to invest. Venture capitalists often provide advice and
professional contacts and serve on the boards of directors
of young biotech firms. As a biotech firm survives and
prospers, its relations with investors often become spatially
attenuated; that is, venture capitalists gradually withdraw
from day-to-day direct management.
Since the industry began, various levels of government
have been extensively involved in establishing biotechnology
FIGURE 7.29 Major clusters of the
U.S. biotech industry (employment
in thousands). The industry exhibits
a pronounced tendency to cluster
in major metropolitan areas, where
it has essential access to universities
and agglomeration economies.
complexes. Because of the industry’s rapid growth as well
as its demonstrated and potential technological advances,
it has been targeted by many national science policies as
a national growth sector. The survival and success of
biotechnology firms is heavily affected by federal research
funds, primarily through institutions such as the National
Science Foundation (NSF) and National Institute of Health
(NIH). Other federal offices—the Small Business
Technology Transfer (STTR), Small Business Innovation
Research (SBIR), the Environmental Protection Agency
(EPA), and the Food and Drug Administration (FDA)—also
play a significant role. Federal policies regarding patents and
intellectual property rights, subsidies for medical research,
and national health care programs are all important to the
industry. As well, roughly 83% of state and local economic
development agencies have targeted biotech for development, and states have designed critical regulatory policies,
educational systems, taxation, and subsidies to support it.
Biotech firms tend to cluster in distinct districts, and
place-based characteristics are essential to the industry’s
success in innovation. Europe, for example, hosts the
BioValley Network situated between France, Germany,
and Switzerland. In Britain, Cambridge has assumed this
role. Similarly, Denmark and Sweden have formed
Medicon Valley. Geographically, a small handful of cities,
particularly Boston, San Diego, Los Angeles, San Francisco,
New York, Philadelphia, Seattle, Raleigh-Durham, and
Washington, DC, currently dominate the U.S. biotech
industry. Together, they account for three-fourths of the
nation’s biotech firms and employment (Figure 7.29). All
of these cities have excellent universities with medical
schools, state-of-the-art infrastructures (particularly fiber
optics and airports), and offer a rich array of social and
recreational environments.
Biotech firms tend to agglomerate for several reasons.
In an industry so heavily research-intensive, the knowledge
Seattle (83.8)
Boston
(95.1)
Washington D.C.
(79.4)
San
Francisco
Philadelphia
(76.5)
Oakland (74.3)
San Jose (87.8)
(75.8)
Raleigh
(92.5)
Los Angeles
(66.5)
Orange County
(54.1)
San Diego
(100.0)
Austin
(47.8)
Chapter 7 • Manufacturing
base is complex and rapidly expanding, expertise is dispersed, and innovation is to be found in networks of
learning rather than in individual firms. This observation is
at odds with the popular misconception that such firms are
the products of heroic individual entrepreneurs. In a highly
competitive environment in which the key to success is
the rate of new product formation, and in which patent
protections lead to a “winner-take-all” scenario, the success
of biotech firms is closely related to their strategic alliances
with universities and pharmaceutical firms. Although many
biotech firms engage in long-distance partnering, this
tends to complement, not substitute for, co-location in
clusters where knowledge is produced and circulated faceto-face, both on and off the job.
Because pools of specialized skills and a scientifically
talented workforce are essential to the long process of
biotech research and development, an essential element
defining the locational needs of biotech firms is the placement of research universities and institutions and the associated supply of research scientists. Most founders of
biotech companies are research scientists with university
positions. Regional human capital may be measured by
examining the prevalence of bachelor’s degrees, which indicate a region’s educational attainment, and the location
and size of regional universities that grant PhD degrees in
biology and related fields. However, to a large extent, local
labor shortages can be mitigated through in-migration.
Because knowledge is generated and shared most efficiently within close loops of contact, the creation of localized pools of technical knowledge is highly dependent on
the detailed divisions of labor and constant interactions of
colleagues in different and related firms. Successful
biotech firms often revolve around the presence of highly
accomplished academic or scientific “stars” with the requisite technical and scientific skills but also the vision and
personality to market them. Often such individuals begin
in academia and move into the private sector.
FLEXIBLE MANUFACTURING
In the aftermath of the turbulent 1970s—which brought
on, among other things, the shift from fixed to floating exchange rates, the petrocrises, the rise of the NICs, massive
deindustrialization in the West, and the microelectronics
revolution—geographers and others began to recognize
that capitalism in the late twentieth century was undertaking
a new direction. The new world economy, characterized
by mounting globalization and competition among nationstates, also included a profound shift in the nature of
manufacturing, including changes in markets, technologies, and location. Now, as we have seen, capitalism is a
highly dynamic economic system characterized by many
such transformations in its history. In this sense, the creation of a new form of capitalism in the 1980s and 1990s
was not particularly new. However, each age brings with
it a new form of commodity production and consumption
and often a new terminology to describe these changes. A
common set of terms used to sum up these epochal
207
TABLE 7.2 Differences between Fordism and
Post-Fordism
Fordism
Vertically integrated
Long-run contracts
Large firms
Economies of scale
Competitive producers
Product price
Mass consumption
Unionized
Unskilled labor
Routinized work
National linkages
Post-Fordism
Vertically disintegrated
Short-run contracts, just-in-time
inventory systems
Small firms
Specialized output
Cooperative networks
Product quality
Segmented markets
Nonunionized
Skilled labor
Varied tasks
International linkages
changes is the shift from “Fordism” to “post-Fordism,”
also variously known as “flexibilism” or “the flexible
economy” (Table 7.2).
Fordism
Fordism, as the name indicates, is named after the American
industrialist Henry Ford, who pioneered the mass production of automobiles in the early twentieth century by means
of standardized job tasks, interchangeable parts (which
date back to gun maker Eli Whitney), and the moving
assembly line. Ford’s methods, which were very successful,
were widely imitated by other industries and soon became
almost universal throughout the North American,
European, and Japanese economies.
The precise moment when Fordism became the dominant form of production in the United States is open to
debate. Some argue that it began as early as the late nineteenth century, when mass production first made its
appearance, displacing the older, more labor-intensive
(and less profitable) forms of artisanal production. For
example, during the 1880s and 1890s, glass blowing, barrel
making, and the production of rubber goods such as bicycle tires became steadily standardized, and the Bessemer
process for fabricating steel was invented. Fordism, however, took mass production to a new level; it introduced
highly refined divisions of labor within the factory, so that
each worker engaged in highly repetitive tasks. To do this,
Ford engaged the services of Frederick Taylor, the founder
of industrial psychology, who applied time-and-motion
studies to workers’ jobs to organize them in the most efficient and cost-effective manner. By breaking down complex jobs into many small ones, Fordism made many tasks
suitable for unskilled workers, including the waves of
immigrants then arriving in the United States, and greatly
increased productivity. Well paying, relatively unskilled
jobs in manufacturing became the basis of social mobility
for the growing working class.
208
The World Economy: Geography, Business, Development
Some see Fordism as a particular kind of social contract between capital and labor, one that tolerated labor
unions (such as the Congress of Industrial Organizations
[CIO] that came into being in the 1930s), and so regard
Fordism as beginning in the crisis years of the 1930s. Yet
others make the case that Fordism was the backbone of
the great economic boom in the three decades following
World War II, when the United States emerged as the
undisputed superpower in the West, and so should be
dated back only to the 1950s. Whenever its origins,
Fordism is reflective of a historically specific form of capitalism that dominated most of the twentieth century.
Fordism came to stand for the mass production of
homogeneous goods, in which capital-intensive companies
relied heavily on economies of scale to keep production
costs low and profits high. Thus, mass consumption and
advertising, as the demand side of Fordism, would also
come into being. It is no coincidence that starting in the
late nineteenth century, the mass production of goods
made them affordable, and that forms of consumption
such as early shopping malls made their appearance.
Typically, firms working in this context were large and
vertically integrated, controlling the chain of inputs from
raw material to final product. In Ford’s plants, for example,
coal and iron ore entered one part of the factory and cars
came out the other end, an example of extreme vertical
integration. Well suited to large, capital-intensive production
methods, this system of production and labor control was
largely responsible for the great manufacturing complexes
of the North American Manufacturing Belt, the British
Midlands, the German Ruhr region, and the Inland Sea
area of Japan.
While Fordism “worked” quite successfully for almost
a century, ultimately it began to reach its social and technical
limits. Productivity growth in the 1970s began to slow
dramatically, and the petrocrises and rise of the NICs unleashed wave upon wave of plant closures in the United
Post-Fordism/Flexible Production
Post-Fordism refers to a significantly different approach
to the production of goods than that offered by Fordism.
Flexible manufacturing allows goods to be manufactured cheaply, but in small volumes as well as large volumes. A flexible automation system can turn out a small
batch, or even a single item, of a product as efficiently as a
mass-assembled commodity. The new approach to production appeared, not accidentally, at the particular historical moment when microelectronics began to revolutionize
manufacturing; indeed, the changes associated with the
computerization of production in some respects may be
seen as capitalists’ response to the crisis of profitability that
accompanied the petrocrises. Post-Fordism also reflected
the imperative of American firms to increase their productivity in the face of rapidly accelerating, intense international
competition (Figure 7.30).
The most important aspect of this new, or lean, system
is the flexibility of the production process itself, including
the organization and management within the factory, and
the flexibility of relationships among customers, supplier
firms, and the assembly plant. In contrast to the large, vertically integrated firms typical of the Fordist economy,
The Flexible-Customized Economy Replacing
the Standardized Economy
The Flexible-Customized
Economy
Saturation Percentage
FIGURE 7.30 The flexible customized economy is replacing
the standardized economy. Henry Ford’s assembly-line
approach led off the innovation phase of the standardized
economy. The late twentieth century has been a comparable
innovation period, launched by the baby boomers. Microcomputer technology, comparable to the automobile of the
early part of the century in innovation, is multiplied in its
potential by powerful, flexible software. This software and
hardware can revolutionize any industry, just as the assembly
line revolutionized industries throughout the Fordist period
of the last century. New technologies put downward
pressure on prices, but rising consumer demand from the
spending wave exerts an upward pressure. A shakeout
occurs, leading to survival of only the fittest companies.
States. Because wages and salaries are often tied to the
overall growth of productivity, these changes not only led
to widespread layoffs but to the declining earning power
of American workers, especially men, who formed the
bulk of the manufacturing labor force. Rates of profit in
manufacturing began to drop in the 1970s and 1980s, and
many firms faced the choice of either closing down, moving overseas, or reconstructing themselves with a new set
of production techniques. It is in this context that Fordism
began to implode, giving way to post-Fordist, flexible production techniques, which have become widespread
throughout the world economy today.
The Standardized Economy
Maturity
Boom
(John Wayne
Generation)
Growth Boom
(Henry Ford
Generation)
Innovation
(Inflation)
Shakeout
(Depression)
1900
1920
1940
Growth Boom
(Baby Boom
Generation)
Maturity
Boom
(Millenial
Generation)
Shakeout
(Depression)
The Spending Wave
Innovation
(Inflation)
1960
1980
2000
2020
2040
2060
Chapter 7 • Manufacturing
under flexible production, firms tend to be relatively
small, relying on highly computerized production techniques to generate small quantities of goods sold in relatively specialized markets. Microelectronics, in essence,
circumvented the need for economies of scale.
The classic technologies and organizational forms of
post-Fordism include robots (Figure 7.31) and just-in-time
inventory systems. The Japanese developed just-in-time
inventory systems shortly after World War II to adapt U.S.
practices to car manufacturing. The technique was pioneered by the Toyota Corporation (and hence is sometimes called “Toyotaism”), which obviated the need for
large, expensive warehouses of parts (the “just-in-case” inventory system), saving rents in a country in which the
price of land is high. Just-in-time refers to a method of
organizing immediate manufacturing and supply relationships among companies to reduce inefficiency and delivery
times. Stages of the manufacturing process are completed
exactly when needed, according to the market, not before
and not later, and parts required in the manufacturing
process are supplied with little storage or warehousing
time and cost. This system reduces idle capital and allows
minimal investment so that capital can be used elsewhere.
Thus, many firms in the late twentieth century engaged in significant downsizing, ridding themselves of
whole divisions of their companies to focus on their core
competencies. Numerous middle-class jobs, such as middle managers, were eliminated in the process, contributing
to the growing crisis of the American worker. Many companies reversed their old principles of hierarchical, bureaucratic assembly-line (Fordist) systems as they switched
to customized, flexible, consumer-focused processes that
can deliver personal service to niche markets at lower
costs and faster speeds.
In this process, the use of subcontracting accelerated
rapidly. Firms always face a “make-or-buy” decision (i.e., a
choice of whether to purchase inputs such as semifinished
209
parts from another firm or to produce those goods themselves). Under the relatively stable system of Fordism, most
firms produced their own parts (i.e., decided to make
rather than buy), justifying the cost with economies of
scale, which lowered their long-run average cost curves.
Large firms, for example, would have their own parts producers, trucks, or printing shops. Under post-Fordism,
however, this strategy was no longer optimal: Given the
uncertainty generated by the rapid technological and political changes, many firms opted to buy rather than make
(i.e., to purchase inputs from specialized companies). This
strategy reduces risk for the buyer by pushing it onto the
subcontractor, who must invest in the capital and hire the
necessary labor. Thus, the number of interindustry linkages
grew rapidly as the economy shifted into a post-Fordist
regime of production, a process that changed the locational requirements of many firms. Transport costs and proximity to suppliers and clients grew accordingly, raising the
significance of agglomeration economies in many sectors.
A key to production flexibility lies in the use of information technologies in machines and operations, which
permits more sophisticated control over the process. With
the increasing sophistication of automated processes and,
especially, the flexibility of the new, electronically controlled technology, far-reaching changes in the process
need not be associated with an increased scale of production. Indeed, one of the major results of the electronic
computer-aided production technology is that it permits
rapid switching from one process to another and allows
the tailoring of production to the requirements of individual
customers. Traditional automation is geared to high-volume
standardized production; the newer flexible manufacturing
systems are quite different.
As interfirm linkages grew rapidly in the late twentieth
century, many firms found themselves compelled to enter
into cooperative agreements, such as strategic alliances,
with one another. Quality control (i.e., minimizing defect
FIGURE 7.31 Japan utilizes one-half of all industrial
robots in the world, an example of the increasing
capital intensity of the production process,
particularly in manufacturing.
210
The World Economy: Geography, Business, Development
rates) became very important. Many firms succeed in this
environment by entering into dense urban networks of
interactions, including many face-to-face linkages and interactions based on noneconomic factors—tacit knowledge, learning, reflexivity, conventions, expectations, trust,
uncertainty, and reputation. Post-Fordism thus highlighted
the culturally embedded nature of economic linkages.
Post-Fordist approaches to production, although varying from region to region, came to dominate much of the
electronics and automobile industries, the minimills in the
steel industry, and the new manufacturing spaces of
California’s Silicon Valley, Italy’s Emilia-Romagna region,
Germany’s Baden-Wurtenburg, the Danish Jutland, and the
British electronics region centered on Cambridge.
Summary
This chapter offered an overview of the changing empirical patterns of manufacturing and the reasons that underlay them and emphasized that manufacturing geographies
are always fluid, changing over time. Four major regions
of the world account for approximately 80% of the world’s
industrial production—northeastern North America, northwestern Europe, western Russia, and East Asia. The textile,
clothing manufacture, and consumer electronics industries
have steadily shifted from the developed world to the developing world. Automobile production and semiconductor
manufacture have also experienced global shifts, from
North America and Europe to Japan and mainland East Asia.
We explored the social relations that lead to industrial
change, described worldwide manufacturing trends, and
examined the recent history of industrial devolution in the
developed world and of industrial revolution in the developing world. The processes of deindustrialization and industrialization are not temporary tendencies within the global
system; rather, they constitute a zero-sum global game
played by multinational nomadic capital. Multinational firms
switched production from place to place because of varying
relations between capital and labor and technological innovations in transportation and communications. With
improved air freight, containerization, and telecommunications, multinational corporations can dispatch products
faster, cheaper, and with fewer losses.
In the United States, millions of manufacturing jobs
were lost between 1978 and 2008. To some extent, these
losses were hidden by selective reindustrialization and the
migration of manufacturing from the Manufacturing Belt to
the South and the West, although even portions of the
Sunbelt, such as Los Angeles, are steadily deindustrializing.
Job loss at this scale entails enormous costs for local communities, many of which are plunged into permanent
states of high unemployment, depressing family incomes,
limiting purchasing power, and contributing to national
economic decline.
The latter part of this chapter explored the ways in
which manufacturing landscapes change over time.
Capitalism is constantly reinventing itself through the process of “creative destruction,” and one of its prime strengths
is the capacity to adjust to rapid change. In the late
twentieth century, as the Fordist regime of production
began to collapse, the petrocrises, deindustrialization, the
rise of the NICs, and the microelectronics revolution
spawned the emergence of post-Fordist, flexible production techniques and organizational forms. Mounting international competition called for a restructuring of the
production process in order to restore the conditions of
profitability, and many firms downsized, subcontracted
many functions, and adopted technologies like just-in-time
inventory systems.
Key Terms
agglomeration
economies 186
deindustrialization 193
flexible production 209
Fordism 207
industrial restructuring 189
international division
of labor 193
just-in-time inventory
systems 209
North American
Manufacturing Belt 185
offshore assembly 192
oligopoly 197
post-Fordism 208
transnational corporation
(TNC) 200
value added by
manufacturing 185
vertical integration 208
Study Questions
1. What are the forces of production and the social relations of
production?
2. Why are capital–labor relations a necessary starting point for
studying economic geography?
3. What are four major world regions of manufacturing?
4. Summarize the historical development of the North American
Manufacturing Belt.
5. When and why did the Manufacturing Belt begin to lose
industries? Where, specifically, did they go, and why?
6. What are vertical integration and disintegration?
7. What is flexible production or post-Fordism?
Chapter 7 • Manufacturing
211
Suggested Readings
Bluestone, B., and B. Harrison. 1982. The Deindustrialization of
America: Plant Closings, Community Abandonment, and the
Dismantling of Basic Industry. New York: Basic Books.
Dicken, P. 2010. Global Shift: Mapping the Changing Contours of
the Global Economy. 6th ed. London: Guilford.
Knox, P., J. Agnew, and L. McCarthy. 2007. The Geography of the
World Economy. 5th ed. London: Edward Arnold.
Linkon, S., and J. Russo. 2002. Steel-Town U.S.A.: Work & Memory
in Youngstown. Lawrence: University Press of Kansas.
Web Resources
International Monetary Fund
http://www.imf.org/external/pubs/ft/issues10/
Post-Fordism
http://www.generation-online.org/c/fcimmateriallabour.htm
One perspective on the causes of global deindustrialization.
Summary of the labor process under post-Fordism.
Econolink
http://www.progress.org/econolink
Econolink has selective descriptions of economic issues; many
sites themselves have Web links.
Log in to www.mygeoscienceplace.com for videos, In the
News RSS feeds, key term flashcards, web links, and self-study
quizzes to enhance your study of manufacturing.
OBJECTIVES
쑺 To illustrate the difficulties in defining and measuring
services
쑺 To assess the diversity of services, including the
range of industries and occupations
쑺 To explore the reasons for the growth of services
쑺 To describe the world of labor in services
Office workers exemplify the massive structural
shift from manufacturing to knowledge-based
economies and personify the growth of producer
services, often the largest and most rapidly growing
segments of postindustrial countries.
쑺 To provide case studies of financial and several
producer services sectors
쑺 To examine the globalization of services
쑺 To sketch the nature of consumer services and
tourism
CHAPTER
Services
8
roadly defined, the tertiary sector of the economy consists of all those sectors engaged in the provision of
services of various sorts, intangibles that include retailing, banking, real estate, finance, law, education, and
government. “Services” encompass an enormous diversity of occupations and industries, ranging from professors to plumbers to prostitutes. Indeed, so great is the variation among firms and occupations within services that the
term threatens to lose any coherence whatsoever. For this reason, it is simplistic to speak of “the” service sector
because the phrase masks the enormous diversity among and within different service industries.
The traditional postindustrial perspective on services saw them as purely information-processing activities,
including clerical work, executive and management decision making, legal services, telecommunications, and the
media. Such a view regarded information processing as a qualitatively new form of economic activity; thus services
were held to represent a historically new form of capitalism. Unfortunately, this view is mistaken. While many service jobs do involve the collection, processing, and transmission of large quantities of data, clearly others do not: The
trash collector, restaurant chef, security guard, and janitor all work in the service sector, but the degree to which these
activities center around information processing is minimal.
More recent perspectives stress services as another form of capitalist commodity production, involving the same
dynamics and constraints of location, production, and consumption as other industries (i.e., manufacturing). In this
light, services may be seen as an extension of market relations into new domains of output and activity. Such a view
does not deny that services may indeed possess a logic somewhat different from that exhibited by manufacturing;
however, it stresses the embeddedness of services within the broader social contours and relations of capitalism
generally.
Throughout most of the economically developed world, various forms of services have replaced manufacturing
employment. In large part, this trend reflects the persistent tendency of the international division of labor to shift
manufacturing activities from economically developed countries to low-cost developing ones. The percent of national
labor forces employed in various types of services varies considerably around the world (Figure 8.1). Generally, the
more economically advanced countries have the highest proportions of service workers; in the United States, more
than 80% of people work in these activities, whereas in poorer countries, notably Africa, where most people work in
agriculture, the share of service workers is relatively low.
This chapter begins by pointing out problems in the definition of services and lays out some of the ways in which
various service industries differ from one another. Next, it turns to the forces that underlay the growth of the service
economy and then summarizes the reasons why many firms externalize services, or purchase them from subcontractors
rather than produce services themselves. The chapter addresses the nature of labor markets in services, contrasting
them with manufacturing and delves into the locational dynamics of services. Case studies of some key sectors are
included, including finance and producer services such as accounting, design, and legal services. Finally, we explore
the means by which services are traded among cities, regions, and countries, focusing on telecommunications and its
impacts on electronic funds transfer, offshore banking, and the global back office.
B
DEFINING SERVICES
Services may be broadly understood as the production and consumption of intangible inputs and outputs and thus
services stand in contrast to manufacturing, whose product can be “dropped on one’s foot.” What, for example, is
the output of a lawyer? A teacher? A doctor? It is impossible to measure these outputs accurately and quantitatively,
yet they are real nonetheless. The U.S. federal government estimates services output using revenues as a proxy;
213
214
The World Economy: Geography, Business, Development
80°
ARCTIC OCEAN
ARCTIC OCEAN
70°
Arctic Circle
60°
60°
50°
50°
50°
50°
PACIFIC
40°
40°
ATLANTIC
OCEAN
30°
10°
40°
OCEAN
30°
30°
30°
20°
20°
160°
40°
PACIFIC
OCEAN
20°
ARABIAN
SEA
BAY OF
BENGAL
10°
10°
50°
0°
0°
60°
70
80°
INDIAN
10°
PERCENT
EMPLOYMENT
IN SERVICES
20°
10°
140°
90°
OCEAN
10°
120°
20°
20°
30°
30°
40°
40°
50°
50°
150°
20°
150°
160°
CORAL SEA
20°
170°
20°
70 and above
30°
40°
50–69
30–49
30°
40°
Below 30
50°
No data
30°
30°
40°
110 ° 120° 130° 140° 150° 160°
50°
0
0
1,000
1,000
2,000
2,000
180°
3,000 MILES
3,000 KILOMETERS
MODIFIED GOODE'S HOMOLOSINE EQUAL-AREA PROJECTION
FIGURE 8.1 Proportion of workers in service industries by country. Note that developed countries have much higher
proportions of service workers than less developed ones. (See the color insert for a more illustrative map.)
140
Government
120
Other services
Leisure and
hospitality
Retail
60
Wholesale
Finance
Manufacturing
Construction
Secondary
sector
20
Producer services
Professional and business
40
0
Tertiary sector
80
Health and
private education
Consumer services
Million Jobs
100
Information
Utilities
Transportation and warehousing
FIGURE 8.2 Employment change by economic sector in the United
States, 1975–2009. Since 1975, the greatest employment gains have
come in professional services, personal services, and social services.
Manufacturing has remained relatively constant in absolute terms
but declined as a proportion of the total, while agriculture and
mining employment has declined in both relative and absolute terms.
Public
services
yet revenues are determined by output and prices, so this
measure is distorted by changes in the relative prices of
service outputs. To complicate matters, many services
generate both tangible and intangible outputs. Consider a
fast-food franchise: The output is assuredly tangible, yet
it is generally considered a service; the same is true for a
computer software firm, in which the output is stored
on disks.
The fact that it is difficult, if not impossible, to measure output in services has enormous implications for
analysis of them. For example, some critics of the service
sector argue that the slowdown in U.S. productivity growth
in the late twentieth century reflected the growth of services.
Yet, if output in services cannot be adequately measured,
how can one argue that output per employee in services
is high or low, rising or falling? If wages reflect productivity increases, what is the relation between services output and salaries? Clearly, the lines between services and
manufacturing are blurry and no simple definition will
suffice.
Figure 8.2 shows the major categories commonly
used to depict the changing nature of the U.S. employment structure over time. There is a broad consensus as to
the major components of the service sector, including the
following:
Primary sector
1975 1980 1985 1990 1995 2000 2005 2009 (Agriculture
and Mining)
Year
Chapter 8 • Services
a. Producer services are those primarily sold to and
consumed by corporations rather than households.
Many producer services also serve final demand,
such as attorneys that cater to both commercial
clients and individuals. Producer services are commonly divided into two major groups:
The finance, insurance, and real estate (FIRE)
sector includes commercial and investment banking,
insurance of all types (e.g., property, health, life,
casualty), and the commercial and residential real
estate industry.
Business services subsume legal services, advertising,
computer services, engineering and architecture, public relations, accounting, research and development,
and consulting.
b. Transportation and communications services include
the electronic media, trucking, shipping, railroads,
airlines, and local transportation (taxis, buses, etc.).
c. Wholesale and retail trade services firms are the
intermediaries between producers and consumers.
d. Consumer services are those such as eating and
drinking establishments, personal services, and repair
and maintenance services, all of which have locational
requirements closely associated with local demographics and transport structures. Entertainment, hotels, and
motels comprise elements of tourism, the world’s
largest industry in terms of employment.
e. Government services at the national, state, and local
levels include public servants, the armed forces, and
all those involved in the provision of public services
(e.g., public education, health care, police, fire departments, etc).
f. Nonprofit services include charities, churches,
museums, and private, nonprofit health care agencies, many of which play influential roles in local
economies.
Every definition of services is slippery, however. For
example, does the term services refer to a set of industries
or occupations? (The U.S. government uses industries.) Yet
when measured on the basis of their daily activities, many
workers in manufacturing are in fact service workers,
including, for example, personnel in headquarters, administration, clerical functions, janitorial work, and research. Is
the secretary who works for an automobile company part
of manufacturing while the secretary who works for a
bank part of services? The use of industrial versus occupational definitions is particularly critical given the growth of
many “nondirect” production workers within many
manufacturing firms, such as clerical, administrative,
research, advertising, and maintenance workers. Clearly,
different definitions of services have significantly varying
implications for assessments of the size and composition
of the service sector.
Using the standard definition of intangible output,
services comprise the vast bulk of output and employment
in most economically developed countries of the world.
Indeed, more than 80% of the U.S. labor force is employed
in services (Table 8.1); similar proportions hold in Europe,
Canada, and Japan. Even as early as 1910, services exceeded
manufacturing in the United States, indicating it was a
“postindustrial” economy before becoming an industrial
one! Further, services comprise the vast majority—often
90%—of all new jobs generated in these economies, indicating that they are not only predominantly service-oriented
TABLE 8.1 Composition of U.S. Labor Force (millions), 1950–2008
Agriculture
Mining
Construction
Manufacturing
TCPUa
Wholesale trade
Retail trade
FIREb
Other services
Personal services
Business services
Health services
Education
Government
TOTAL
a
1950
5.0
0.9
2.1
16.4
3.9
2.6
6.6
1.8
5.3
5.8
50.4
1960
4.8
0.7
2.9
16.8
4.0
3.1
8.2
2.6
7.3
0.8
0.6
1.5
0.6
8.2
62.1
Transportation, communications, and public utilities.
Finance, insurance, and real estate.
Source: U.S. Bureau of Labor Statistics.
b
1970
3.9
0.6
3.6
19.4
4.5
4.0
11.0
3.6
11.4
0.9
1.4
3.0
0.9
12.3
80.5
215
1980
3.6
1.0
4.3
20.3
5.2
5.3
15.1
5.1
17.5
0.8
2.5
5.1
1.1
16.1
103.0
1990
3.5
0.7
5.1
19.1
5.8
6.2
19.6
6.7
27.3
1.1
5.1
7.6
1.6
18.0
127.4
2000
3.3
0.5
6.6
18.5
7.0
7.0
23.3
7.6
39.9
1.2
9.7
10.0
2.3
20.4
157.3
2008
2.2
0.8
11.0
15.9
7.7
4.1
16.5
10.2
53.9
1.4
15.5
14.1
2.4
23.1
178.8
The World Economy: Geography, Business, Development
FIGURE 8.3 U.S. median
household income, 1967–2008.
Although productivity gains have
kept prices low, the U.S. labor
market has been besieged by
deindustrialization and corporate
restructuring; consequently, real
income growth has been meager
and mostly concentrated in the
upper echelons. Asian American
households have the highest
median income, followed by
whites, Hispanics, and African
Americans.
$80,000
$70,000
$65,637
$60,000
2008 dollars
216
$55,530
$50,303
$50,000
$40,000
$37,913
$34,718
$30,000
$20,000
Asian
$10,000
Hispanic (any race)
$0
1965 1970
1975 1980
but are becoming increasingly more so. Even in much of the
developing world the services labor force comprises a large
share of the labor force, including much of the “informal”
(untaxed, unregulated) economy (Chapter 14); this fact
belies earlier, simplistic assertions that held that all
economies inevitably move through a rigid series of stages
(i.e., agricultural to industrial to postindustrial).
FORCES DRIVING THE GROWTH OF SERVICES
Why have services grown so rapidly? In economically
developed countries, services employment has increased
steadily even in the face of low rates of population
growth, slowly rising rates of productivity and incomes,
and significant manufacturing job loss. Services and manufacturing are intimately intertwined, but it is equally apparent
that services exhibit growth and locational dynamics
somewhat different from those of manufacturing, although
both constitute commodity production in varying forms.
Six reasons for the increase in services employment
throughout the world are described next.
quantity
White, not Hispanic
income per capita
Black
1985 1990
1995 2000 2005
Rising Incomes
A standard explanation for the growth of services centers
on gradually rising per capita incomes, particularly in the
industrialized world (Figure 8.3). The demand for many
services is relatively income-elastic, that is, increases in
real personal income tend to generate proportionately
larger increases in the demand, in contrast to the demand
for most manufactured goods (Figure 8.4). Services with
particularly high income elasticities include entertainment,
health care, and transportation. Households in the United
States spend more on services than they do on durable
and nondurable goods combined (Figure 8.5).
An important reason contributing to this growth is the
increasing value of time that accompanies rising incomes
(especially with two income earners per family). As the
value of time (measured by income) climbs relative to other
commodities, consumers generally will attempt to minimize
the time inputs needed for the accomplishments of many
ordinary tasks. While this phenomenon also explains the
demand for dishwashers and automobiles, it is especially important for the growth of services. The explosion of fast-food
quantity
quantity
Primary
All races
Manufacturing
income per capita
Services
income per capita
FIGURE 8.4 Income elasticities of demand for services are high compared to those for agricultural or manufactured goods.
Chapter 8 • Services
FIGURE 8.5 Personal spending on goods and services in the
United States, 1988–2008. The income elasticity of most
services compared to goods have led to their becoming
more than half of the average household’s expenditures,
particularly for education, transportation, health care,
and entertainment. As a country ages and develops, there
is a natural economic transition as well as a demographic
transition—from major spending on goods, like food,
clothing, houses, refrigerators, cars, washers, and televisions,
to major spending on services.
5.0
4.5
Trillions of 2000 dollars
4.0
3.5
Services
3.0
2.5
2.0
217
Nondurable goods
1.5
1.0
Durable goods
0.5
0
1988 1990 1992 1994 1996 1998 2000 2002 2004 2006 2008
Year
restaurants, for example, has little to do with the quality of
food (or even the price) and much to do with attempts by
consumers to minimize time spent cooking at home.
Similarly, the growth of repair services reflects both increasingly sophisticated technologies (e.g., in automobiles
or televisions) and a generalized unwillingness to spend
limited recreation time doing such chores. Thus, the
increasing value of time has led to a progressive externalization of household functions, so that which used to be
done in-house becomes a for-profit commodity purchased
through the market.
Demand for Health Care and Education
Rising levels of demand for health and educational services
comprise an important part of the broader growth of the
service economy. Health services employment and output
have increased steadily throughout Europe, North
America, and Japan (Figure 8.6), often leading to political
conflicts about how to contain them, such as the debates
in America about the rising costs of Medicaid and
Medicare. In the United States, health care expenditures
surpassed $2.3 trillion in 2008 (Figure 8.7), roughly 17% of
the gross domestic product and much higher than any
other industrialized country (Figure 8.8). The only developed country to lack a national health insurance (“singlepayer”) system, the United States also has the most inefficient system, spending far more per capita on health care
than do countries with single-payer systems (Figure 8.9)
and devoting a larger share of its national output to health
care than Europe or Japan. In many cities, health care is
the largest and most important part of the local economy,
including, for example, Pittsburgh, Pennsylvania, formerly
the steel capital of the world, and Birmingham, Alabama.
The demand for health care has increased steadily in
large part because of the changing demographic composition of industrialized countries. Throughout the developed
world, the most rapidly growing age groups today are the
FIGURE 8.6 As populations age, health care has
become a major part of the economies of
economically developed countries. As health
related expenses comprise a growing share of
gross domestic product, debates and strategies
to contain health-related costs have arisen
as well. Medicare, Medicaid, Social Security, and
guaranteed health care programs are under fire
today in most of the developed world because
of runaway costs. Putting in place reforms that
slow down the rise in pension and health care
spending is a priority, since the level of future
governments’ entitlements to the elderly dwarf
today's debts.
218
The World Economy: Geography, Business, Development
FIGURE 8.7 U.S. national health care
expenditures, 1965–2008. One of the costs
of an aging, rich population is runaway
health care cost. But the age of austerity
has already arrived in Europe and is
about to land in America. Governments
throughout Europe have already
nationalized health care to keep costs
down, and are now cutting health and
social spending, and raising taxes,
causing riots across Europe. Even rich
countries find the runaway costs of
health care too high, and the United
States is now considering austerity
measures like raising retirement age
and raising taxes, although there is no
movement to nationalize health care
itself, like in many European countries.
$2.5
Trillions of Dollars
$2.0
$1.5
$1.0
$0.5
$0
1965
1975
1985
1995
Medicare and Medicaid
Private Insurers
Other
Personal out-of-pocket spending
middle-aged and the elderly, precisely those demographic
segments that require relatively high per capita levels of
medical care. As the baby boom enters its retirement years,
the demand for health services will rise even higher.
Higher life expectancies and soaring equipment, medical
2008
insurance and litigation, and pharmaceutical and research
expenses have added to the costs of this sector.
Similarly, globalization, increasing technological sophistication, and increasing demand for more analytical
skills (particularly numeracy and computer skills, as shown
Total Health Spending As a Percent of GDP
16
Australia
14
Canada
12
% of GDP
France
10
x
8
6
4
x
*
x
x
*
*
x xx
x x
x
x*
**
*
*
*
*
*
*x
Japan
Spain
Sweden
x xx
*
United Kingdom
United States
2
1965
1975
1985
1995
2005
Year
FIGURE 8.8 Percent of gross domestic product (GDP) dedicated to health care expenditures, 1970–2005, for major industrial countries.
As the population has aged and the cost of health services has risen, this sector consumes one-seventh of all dollars spent in the United
States. Although the United States has the least equitable system of health care access in the industrialized world—15% of adults have
no health care insurance—its system is not the most efficient; European countries spend, on average, less on health care as a proportion
of their total output.
Chapter 8 • Services
219
Health expenditures per capita, public and private expenditure
OECD countries, 2008
7,000
6,000
USD $ PPP
50,00
Public expenditure
on health
Private expenditure
on health
4,000
3,000
2,000
UNI
TED
STA
TES
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SW
A
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LUX
AND
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BOU
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1,000
FIGURE 8.9 Per capita health care expenditures, Organization of Economic Cooperation and Development (OECD)
countries, 2008.
in Figure 8.10) in the workplace have driven the increasing
demand for educational services at all levels, a process reflected in higher enrollments in universities. A college education has become a prerequisite to middle-class jobs;
thus, whereas the bulk of graduating high school students
in the United States did not attend college in the 1960s,
today almost 70% do so.
An Increasingly Complex Division of Labor
The growth of the service sector reflects the increasing
complexity of the division of labor. A rising proportion of
nondirect production workers are employed by firms
in the manufacturing sector. All corporations today devote considerable resources to dealing with a complex
marketplace and legal environment, including many specialized clients, complex tax codes, environmental and
labor restrictions, international competition, sophisticated
financial markets, and real estate purchases and sales.
Deregulation—the lifting of state controls in many
industries—increased the uncertainty faced by many firms
and had significant impacts on the profitability, industrial
organization, and spatial structure of numerous sectors.
FIGURE 8.10 The microelectronics revolution made computers
cheap, powerful, and widely used in virtually all forms of production,
including services, with powerful impacts on productivity and labor
markets. First it was mainframes, then PCs, then laptops, and then the
Internet innovation of networked computers and unlimited amounts
of data and information. This has been followed by microelectronic
revolutions in cell phone technology and broadband services,
allowing for even mainstream users to leap into user-friendliness,
affordability, and productivity increases, while inflation and interest
rates fall, all the while making new friends on Facebook.
220
The World Economy: Geography, Business, Development
To negotiate this environment, firms require administrative bureaucracies to collect and process vast quantities
of information and make strategic decisions; clerical
workers to assist with mountains of paperwork; researchers to study market demand and create new products; advertisers and salespeople to market their output;
and legions of people engaged in public relations,
accounting, law, and finance to assist in an enormously
complicated decision-making environment. Similarly, the
introduction of sophisticated machinery requires maintenance and repair personnel, and offices or industrial
plants require security and building maintenance staff—
these are all nondirect production workers, and all are
services workers. Unlike income-based or demographic
explanations, the increasing complexity of the division of
labor has the added appeal of accounting for the growth
in producer services, the most rapidly growing part of the
economy of most developed countries.
In line with the division of labor explanation, the
growth of services reflects not the development of a new
economy, but rather the revolutionary force of capitalism
as it has generated dramatic shifts in the division of labor
in society. Thus, the outsourcing of service functions
by clients and the creation of new types of service occupations represent an extension of the division of labor.
An increasingly specialized division of labor reflects
both increasing specialization of activity with a resultant
increase in the complexity of production and alterations
in the way in which production is organized. Thus, research and development, design, market research, trial
production, product testing, marketing, and sales are all
essential parts of getting goods from producer to consumer. The fact that they can be separated in both time
and space from the actual production process does not
necessarily imply that they are not an integral part of the
manufacturing sector. This means that the dramatic
growth in business service employment reflects alterations in the way in which manufacturing production is
organized rather than the development of a new type of
service or knowledge economy.
A fourth reason given for the growth of services is the increasing size and role of the public sector and concomitant
expansions in government employment. Governments
contribute to the growth of services in two ways. First,
government employment has increased steadily, especially
since the 1930s, because the public demands the services
that government provides. Governments provide services
that are socially necessary but not profitable, such as public transportation and education, libraries, police and fire
services, social workers, disaster relief, postal services,
public health, and health care for the poor. Today the federal government is the largest single employer in the
United States, employing more than 2 million people;
however, it is dwarfed by the combined employment in
numerous state and local governments (Figure 8.11).
A second way in which government contributes to the
growth of services is indirectly, through a labyrinthine web
of laws, rules, restrictions, and regulations, such as tax and
antidiscrimination laws, contributing to the increase in the
number of attorneys, accountants, consultants, and other
specialists who assist firms (externally or internally) to negotiate the legal and regulatory environment. The degree
of regulation that the government imposes creates changing levels of uncertainty in the market, and many service
functions allow firms to deal with this phenomenon.
Service Exports
A fifth reason for the growth of services is the rising levels of service exports within and among countries. A
widespread myth is that services always cater to local
demand (i.e., they are nonbasic activities [Chapter 10]
and are thus of secondary importance to manufacturing).
This notion reflects the long-standing bias against services
in economic thought. In countries where the vast bulk of
workers are engaged in the production of services, it
would be astonishing if services were not traded among
places. The economies of many cities, regions, and
countries derive a substantial portion of their aggregate
18,000
Number of employees (in thousands)
FIGURE 8.11 Employment in the federal, state, and local
governments in the United States, 1950–2006. The vast bulk of
public sector employment is at the local level.
The Public Sector: Growth and Complexity
16,000
14,000
Local Government
12,000
10,000
8,000
6,000
State Government
4,000
2,000
0
Federal Government
1950
1960
1970
1980
1990
2000
2002
2006
Chapter 8 • Services
revenues from the sale of services to clients located
elsewhere. Many urban areas export services to clients
located in other parts of the same nation. Consider, for
example, cities such as Las Vegas, which revolve exclusively
around exports of tourism and entertainment services to
visitors. Whenever a television company in one city sells
advertising time to a client in another, that city exports
services. New York City depends heavily on exports of
financial, legal, and advertising services domestically as
well as globally, and Washington, DC, exports government services to the rest of the country. “Export” in this
context refers to the location of those who pays the bills:
If the client is located elsewhere, then sales of a service
are exported and form part of the local basic sector
(Chapter 10).
Services are also traded on a global basis and comprise roughly 20% of international trade. Internationally,
the United States is a net exporter of services, with an
annual trade surplus of roughly $144 billion in 2008, but
runs major trade deficits of more than $840 billion in manufactured goods (Figure 8.12). Exports of services are one
reason services employment has expanded domestically.
Indeed, it could be said that as the United States has lost
much of its comparative advantage in manufacturing, it
has gained a new one in financial and business services.
The data on global services trade are poor, but some estimates are that services comprise roughly one-third of total
U.S. export revenues. These sales overseas take many
forms, including tourism, fees and royalties, business services, and profits from bank loans. Unfortunately, the U.S.
data in the Current Account (the government’s system for
collecting data on trade in goods and services) include
repatriated profits from overseas manufacturing investments as a “service,” while in reality these comprise
returns from capital investments abroad, many of which
are in manufacturing. Service exports do not generate jobs
and revenues in all places equally: Cities such as New
York, Los Angeles, and London, for example, which are
critical to global capital markets, have benefited the most
heavily.
The Externalization Debate
Yet another explanation for the growth of services lies in
the externalization of many functions as large, previously
vertically integrated firms downsized in response to
mounting international competition. As a result, the amount
and degree of subcontracting grew explosively. The externalization thesis holds that large firms used this strategy to
minimize costs during economic downturns and periods of
rapid restructuring. The alternative is that new business
practices led to an increased need for external expertise
not met in-house. In the face of strategic downsizing, costcutting, and the desire to be “lean and mean,” many large
companies no longer had sufficient staff to internalize
producer service functions. The result was the creation of
large numbers of new firms.
Firms turn to the market for services in cases where it
is less expensive to acquire them externally than internally
(i.e., when it is more efficient to buy rather than to “make”
them). For example, companies may subcontract with
legal, repair, trucking, maintenance, or advertising firms,
or management consultants and software engineers. The
decision to use external providers of producer services
may be based on the lower costs of an outside supplier, or
it may be based on a perception that external services are
of higher quality if subcontractors are highly specialized in
a given area. Firms also employ external producer services
when they require types and quantities of expertise, information, and knowledge that are very different from their
own. It makes limited sense to employ full-time staff if the
demand is seasonal, unstable, or temporary in nature.
By employing external providers of expertise, a firm is
not exposed to the risks associated with full-time employees. It does not have to pay Social Security costs, provide
training, and invest in buildings to house these functions.
It also means that during downturns in the economy, the
firm can reduce its use of external expertise by not renewing contracts. Full-time workers are relatively difficult to
remove from the firm; subcontracting spreads risks down
the production chain.
200
Billion $
0
-200
-400
-600
Goods
Services
-800
-1000
1960
1965
1970
1975
1980
1985
1990
221
1995
2000
2005
FIGURE 8.12 U.S. trade balance in goods and
services, 1960–2008. Although the United
States runs large trade deficits in manufactured
goods, it usually has a small surplus in services.
In 1920 in the United States, employment in
the primary, secondary, and tertiary sectors
were each approximately 33% of the work
force. Since that time, the primary sector has
plummeted to about 3% and the secondary
sector has dropped to less than 15% of the
total workforce in America. The United States
is a postindustrial society, whereby over 80%
of the jobs are in the services. Developing
countries have taken over the production of
most manufactured goods in the world due
to low factory wages and less access to the
information economy. Two notable exceptions
for the United States is the production and
export of modern commercial aircraft, such
as Boeing wide-bodied jets, and military
equipment.
222
The World Economy: Geography, Business, Development
The growth of the service economy has been marked by
the emergence of all sorts of niche markets, including those
in which the supply of new skills and expertise is often very
limited (for example, Web page designers in the early days of
the Internet). As soon as the supply of expertise develops,
purchasing companies may develop their own internal
supply. In the meantime, external purchases are their only
option. The externalization process created many producer
service firms that primarily offer expertise, reflecting the growing technological and administrative complexity of the division of labor. As a result, many functions formerly performed
in-house by manufacturing firms have been subcontracted to
small suppliers, some of which are in the service sector.
Subcontracting and externalization are often studied in the
context of manufacturing firms but have also become increasingly common among large service firms, which face similar
competitive pressures to reduce costs.
Firms face a choice as to when to externalize, and how
much. This choice reflects both the external environment
of the firm and the internal role of its key decision makers.
Externalization is most likely when:
a. The firm faces severe in-house technical limitations
(i.e., expertise)
b. The firm is an independently owned entity, not a
branch plant; vertically integrated firms tend to provide
more services in-house
c. The firm is sophisticated relative to its competitors
(e.g., technologically, or operates in foreign markets)
d. Service inputs are diverse, shifting, and nonstandardized (e.g., installation, repair, or consulting)
Firms also externalize services when they face rising
uncertainty—rapid change in products or technology—
when the labor process resists easy automation, or when
the optimal scales of operation of production processes
are markedly different.
Essentially, externalization allows for external economies of scale to replace internal economies of scope. By
externalizing, firms substitute variable costs for fixed ones
and spread the risks of production over their subcontractors,
a particularly vital concern during peak periods of demand
and mounting levels of uncertainty. Among producer
services that firms are likely to externalize, insurance ranks
as the most common, followed by accounting, advertising, research, management consulting, advertising and
public relations, engineering/architecture, market research,
management/professional recruitment, computer installation/
repair, commercial law, real estate, and temporary office
help. Such services are ones that are not efficient or costeffective to duplicate in-house and are only needed once
or infrequently, on an unpredictable basis (e.g., troubleshooting). Typically, such services augment or substitute
for the internal resources of firms; when the demand is
regularized and predictable, they are likely to be internalized within the firm. Further, the degree of externalization
depends on whether the firm is a single establishment or a
branch plant, as the latter has the lowest degree of local
externalization.
Statistically, the apparent growth of services has been
inflated by externalization due to the limitations of the
parameters used to measure economic activity. For example,
a steel company may lay off a janitor during a period of
contraction but then subcontract with a janitorial service;
similarly, a ball bearing company may lay off a secretary
and contract out to a clerical services company. Nothing
has substantively changed in the process—the same jobs
are performed—but the manufacturing sector in which the
janitor or secretary used to work has registered a decrease
in employment while the service sector has registered an
increase. Because employment statistics rely on definitions
based on industries and not occupations, this results in a
reduction of manufacturing employment and an increase
in services employment. In terms of services employment,
therefore, the data are something of a statistical mirage;
were definitions of services based on occupations and not
industries, this circumstance would cease to be an explanation of services growth.
Nonetheless, given the structure of national employment
accounting systems, contracting out represents one reason
why services employment has increased, but the process
serves as a reminder that the boundaries between services
and manufacturing employment are often blurry. Some
have argued that the vertical disintegration and externalization thesis has been exaggerated. One line of thought is
that the demand for services is satisfied through the
growth of many small firms that satisfy new needs, often
consisting of a single individual filling a highly specialized
niche providing customized services, with low overheads
and few economies of scale.
LABOR MARKETS IN THE SERVICE ECONOMY
In the economically developed world, the vast majority—
often more than 80%—of all jobs involve services of one
form or another. Further, new jobs—on the order of 90%—
are overwhelmingly concentrated in services. Of course,
the production of intangibles includes an enormously
diverse array of industries and occupations, but despite
these variations, the diverse labor markets in which most
workers find employment demonstrate several common
characteristics.
Characteristics of Services Labor Markets
Services employment exhibits a number of properties that
simultaneously resemble and differ from those in manufacturing. Among these are its relatively labor-intensive
nature, income distribution, gender composition, relative
lack of unionization, and educational requirements.
LABOR INTENSITY In contrast to labor markets dominated
by manufacturing firms, services industries tend to be
relatively labor-intensive, that is, they use relatively more
labor per unit of output. Accordingly, the costs of wages
and salaries for most services firms range from 70% to 90%
of their total costs compared to 5% to 40% in most
Chapter 8 • Services
Manufacturing
Percent of Jobs
Services
223
FIGURE 8.13 Depiction of the argument that
manufacturing generates a middle-class set of incomes,
whereas services incomes are polarized between the
relatively high and low. Viewed in this way,
deindustrialization and the shift to a service economy are
responsible for the mounting income inequality in the
United States.
0
Income - >
manufacturing firms, depending on the degree of labor
intensity or capital intensity. Of course, some services,
such as finance, can be quite capital-intensive and generate huge outputs with minimal workers; others, however,
such as education and medical care, require large numbers
of employees. Whereas manufacturing output has been
relatively easy to mechanize—witness the remarkable
changes of the Industrial Revolution—in many services it
is much more difficult or costly to replace workers with
machines, particularly if the services involve variations in
tasks, judgment, or dexterity. Obviously, some services
sectors have seen enormous technological change—for
example, personal computers in the office or automatic
scanners in retail stores. For poorly paying jobs, however,
firms’ incentives to replace workers with machines may be
relatively low.
INCOME DISTRIBUTION The distribution of incomes in
services occupations has been a major source of concern
to many social observers. The standard argument is that
industrial economies generated a distribution of income
that was relatively “normal” (in the statistical sense)
(i.e., manufacturing created societies with a large middle
class and relatively few rich or poor [Figure 8.13]). In contrast, services are frequently viewed as exhibiting a bifurcated wage distribution polarized between well-paying,
white-collar managerial/professional jobs, on the one
hand, which require a university education, and on the
other, unskilled, low-paying jobs that require little to no
higher education (e.g., retail trade, many medical services,
security guards, etc.). Indeed, in contrast to early, optimistic
postindustrial expectations that a service-based economy
would eliminate poverty, a large share of new service jobs
pay poorly, offer few benefits, and are part-time or temporary in duration, leading to widespread concerns about the
“McDonaldization” or “K-Martization” of the economy. The
most rapidly growing occupational groups in the United
States, including over the next decade (Table 8.2), include
professionals but also low-wage service workers and retail
trade employees. The wage gap between skilled and unskilled workers contributed heavily to the rapidly growing
income inequality in the United States (Figure 8.14).
The occupations with the greatest relative projected
job growth are those having almost anything to do with
computers as well as health care–related positions such as
home personal care aides and medical assistants. In absolute terms, the greatest number of new opportunities
will be in low-wage, unskilled positions such as food
preparation, customer service, retail sales, cashiers, clerks,
and security guards. Further, the United States has witnessed
a steady growth in contingent labor (i.e., involuntarily
part-time jobs typically filled by women and minorities),
a process that has created a class of the “working poor”
and helped to swell the ranks of the homeless caught
between jobs that pay too little and housing that costs
too much.
Concerns about the bifurcation of income in services
are augmented by the fact that deindustrialization has
eliminated many jobs in manufacturing, while services
continue to grow. In general, services have tended to pay
poorly compared to manufacturing: The average clerical
position in the United States generates only 60% of the annual income of a blue-collar industrial worker, and the average retail trade job only 50% as much. Such fears are
TABLE 8.2 Projected Employment Change in U.S. Labor
Force for Most Rapidly Growing Occupations, 2006 and
2016 (thousands)
Home care aides
Home health aides
Customer service
Nurses
Teachers
Nurses aides
Food preparation
Janitors
Office clerks
Retail sales
2006
767
787
2202
2505
1672
1447
2503
2387
3200
4477
Source: U.S. Bureau of Labor Statistics.
2016
1156
1171
2747
3092
2054
1711
2955
2732
3604
5034
% Change
50.7
48.8
24.8
23.4
22.8
18.2
18.1
14.5
12.6
12.4
224
The World Economy: Geography, Business, Development
FIGURE 8.14 Retail trade is a major source of employment in economically developed countries and one of the largest forms of unskilled,
low-wage services work. Wal-Mart, with 1 million American employees, is the largest private employer in the United States.
manifested in worries about the “declining middle class”
and the polarization of postindustrial economies into distinct groups of “haves” and “have-nots.” Statistically, however, there is little evidence to suggest that the distribution
of incomes among services occupations differs significantly
from that in manufacturing (Figure 8.15). Indeed, services
generate the vast majority of employment that allows for
millions of well-paid, middle-class suburbanites to live relatively comfortable lives. Others argue that the statistical
evidence pointing to the mounting inequality in income
distributions, particularly in the United States (Figure 8.16),
reflects the increasingly regressive nature of taxation in the
United States (where the affluent escape their share) as
well as the growth of unearned income (e.g., rents, royalties, stock dividends), from which the rich derive the vast
bulk of their earnings.
U.S. Wage Distribution
4.0
Percent of Labor Force
3.5
3.0
2.5
2.0
Goods-Producing
Industries
1.5
1.0
Service Sectors
0.5
0
0
200
400 600 800 1,000 1,200 1,400
Weekly Wages (dollars)
FIGURE 8.15 Distribution of wages in goods-producing and services
industries in the United States. Contrary to the notion that services
incomes are inherently polarized, in fact they closely resemble the
distribution in manufacturing.
GENDER COMPOSITION A third widespread concern about
the labor markets in services is gender composition.
Manufacturing-based economies predominantly employed
males; although some women worked in factories (particularly textiles and garment manufacturing), industrial
economies characteristically saw relatively low rates of female labor force participation. Most women who worked
outside the home did so either for brief periods prior to
getting married or in a few specialized occupations such as
teaching or nursing.
The growth of services since World War II has been accompanied by the steady increase in women in the paid
labor force throughout Europe, North America, and Japan.
The most rapid rise in women’s labor force participation
rates has been among married women with children (Table
8.3; Figure 8.17). In the United States today, women comprise 48% of all full-time employees. However, women’s
entry into services jobs has been in large part limited to socalled pink-collar jobs, including clerical and secretarial
work, retail trade, health care (other than doctors), eating
and drinking establishments, teaching, and child care
(Figure 8.18). Most of these jobs pay relatively poorly, leading to widespread concerns about the feminization of
poverty. Indeed, until very recently, women’s presence in
well-paying occupations such as physicians, attorneys, or
corporate management has been relatively low, leading to
complaints about the “glass ceiling” many women face in
the workplace. Such a clustering in low-paying jobs is the
major reason why women on average in the United States
have incomes that are only 70% of those of men.
The rise of women’s labor force participation in services carries several social implications. Some maintain that
the increase in women’s work participation serves as a
strategic compensation to declining male incomes in the
face of deindustrialization. The rise of the two-income
family has significantly changed gender roles at home and
led to (largely unsuccessful) pressures to redistribute
Chapter 8 • Services
280
268
260
240
200
180
160
157
Top 5 percent
(subset of the
top 20 percent)
140
126
120
Top 20 percent
100
80
60
40
76
79
Next 20 percent
44
44
Middle 20 percent
31
20
0
1960
24
Next 20 percent
20
TABLE 8.3 20 Leading Occupations of Employed
Women in the United States, 2005
Occupation
Secretaries
Elementary school teachers
Nurses
Home health aides
Cashiers
Administrative support
Retail sales
Customer service
Clerks
Accountants
Receptionists
Maids
Office clerks
Secondary school teachers
Waiters/waitresses
Financial managers
Teacher assistants
Preschool teachers
Social workers
% Women
96.7
96.7
91.8
88.3
75.0
69.5
41.1
70.1
91.2
60.8
93.9
89.7
83.8
54.8
67.3
55.7
91.7
97.7
76.1
Source: U.S. Department of Labor.
11
Bottom 20 percent
7
1970
1980
Year
1990
2000
2005
FIGURE 8.16 Income inequality in the United States, 1965–2005.
Mounting income inequality reflects the impacts of globalization
on the poor and the rapid rise in incomes of the top 5% who have
benefited the most from the growth of unearned income and an
increasingly regressive tax structure.
housework to men. In countries without national day care
systems, such as the United States, childcare is an important
constraint to women’s job opportunities. For middle-class
families capable of paying for private childcare, this constraint can generally be overcome, although it represents a
constant source of financial and emotional stress, complicating commuting patterns and changing the socialization
patterns for the young: Most children today enjoy relatively
little free time compared to earlier generations. For the
poor, who cannot afford professional childcare, adequate
or otherwise, the rise in women’s paid work has created a
childcare crisis. In many cases, unattended children, often
called “latchkey kids” in the United States, spend long
periods free from adult supervision, a phenomenon likely
to lead to youths who engage in illicit or illegal activities.
largely due to deindustrialization. Despite their rapid
growth, jobs in services are rarely unionized; the vast
majority of workers in retail trade and in many skilled
professions (e.g., attorneys, accountants) do not belong
to unions. Among American workers, some service employees are occasionally organized in medical unions
(e.g., Union 1199), teachers’ unions (e.g., American
Federation of Teachers), or public-sector unions (e.g.,
American Federation of State, County, and Municipal
Employees), but these are generally exceptions.
Labor Force Participation Rates for
Married Women with Children 1960-2010
80
60
Percent
Average Inflation-Adjusted Income of American Households by Income Group
(thousands of dollars)
220
225
40
20
0
LOW DEGREE OF UNIONIZATION In general, most services
are nonunionized. Indeed, since World War II, the percentage of workers belonging to unions has declined steadily
(from 45% in the United States in 1950 to 12% today),
1960
1970
1980
1990
2000
2010
Year
FIGURE 8.17 U.S. labor force participation rates for women with
children under age 18, 1960–2010.
226
The World Economy: Geography, Business, Development
FIGURE 8.18 Women as percent
of labor force in different
industries. The gender composition of jobs varies widely among
industries. Most women are
concentrated in relatively lowpaying pink-collar occupations.
100
90
80
70
Percent
60
50
40
30
20
10
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Ag
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0
EDUCATIONAL INPUTS Finally, the relationship between
the services sector and education is important. In general,
skilled managerial and professional services require more
education than do jobs in manufacturing, particularly literacy, numeracy, and computer skills. Unemployment rates
are almost always lower for well-educated workers compared to those without a high school degree (Figure 8.19).
Moreover, the average income of workers with advanced
degrees is considerably higher than those without (Figure
8.20). College degrees pay for themselves many times over
in terms of higher lifetime earnings.
Accordingly, the demand for higher-educational services
has risen throughout the industrialized world as a university
degree has become a prerequisite for obtaining middle-class
jobs, leading to a surge in college enrollments. In the United
States, for example, only 20% of high school graduates went
on to attend universities after graduating in the 1950s,
whereas today roughly 70% do so (although many do not
graduate). Accordingly, many industrial countries have come
to recognize that in the context of a knowledge-based economy, higher education is essential to national and local economic competitiveness. Within the United States, likewise,
states that have spent funds to develop high-quality university systems have enjoyed a competitive advantage over
those that neglected educational funding, particularly in high
technology and producer services. People who are denied
access to a university education—overwhelmingly the poor
and minorities—are increasingly likely to be condemned to a
lifetime of poverty. During the industrial economies of the
early twentieth century, a strong back and arms ensured at
least a lower-middle-class lifestyle; today, those who do not
complete high school find few venues in which to compete
successfully in the labor market.
Unemployment Rate by Education Level
No high school diploma
All
High school grads
20%
Some college
College grads
15%
10%
5%
0%
1980
1985
1990
1995
2000
2005
Source: U.S. Department of Labor, Bureau of Labor Statistics
FIGURE 8.19 Unemployment rates by educational level in the
United States, 1979–2010. The better educated workers are, the
less likely they are to lose their jobs.
2010
Chapter 8 • Services
100,000
$90,660
$77,605
Income (in dollars)
80,000
$60,132
60,000
$40,456
40,000
227
FIGURE 8.20 Median household income in the United
States by educational level, 2007. Don't believe the
claims about skyrocketing tuition costs and worthless
education. The investment in higher education is the
safest bet around. Not only does it correlate with higher
lifetime earnings, but it prepares for long-term success in
careers, while broadening minds and enriching lives. Now
is a good time to go to school, as there are fewer jobs
available and unemployment is high. The economy will
eventually improve. The majority of American students
attend public institutions where the average tuition is
$7000 per year, for in-state students, and the costs are
much less at junior colleges. Much of the tuition in Europe
is free, but the entrance requirements are much stiffer.
$24,492
20,000
0
Non-High High School
School Grad
Grad
Associate‘s
Degree
Bachelor‘s
Degree
FINANCIAL SERVICES
Finance is a critical part of contemporary economies and
societies. As noted in Chapter 2, the historical development of capitalism was accompanied by the formation of
credit systems that led to the modern banking system.
Today, economic geographers are often concerned with
the geography of money in various forms, including the
spatial structure of financial industries.
Finance is not a single industry but a set of closely
related sectors that revolve around money in various
forms. A central function of these institutions is to serve as
intermediaries between borrowers and savers (i.e., individuals and institutions with excess capital to be lent and
those who need capital for whatever purpose). Banking
thus involves the exchange of money from savers to borrowers and assets (i.e., debt) from borrowers to savers.
However, there are considerable differences in the
markets involved, the size and behavior of firms, and the
regulatory environment they face. The distinctions vary from
country to country, as they are often based on governmentmandated regulations that prohibit some types of firms
from operating in some markets. The following distinctions are based on the American financial system and vary
in other countries with different regulatory systems.
COMMERCIAL BANKING The largest component of finan-
cial services, and the one most people think of when they
consider finance, is commercial banks. These are the institutions primarily involved in commercial loans (i.e., to
firms, not individuals, including venture capital for startups and commercial real estate). Commercial banks provide most of the capital firms use for the building of office
complexes, hotels, waterfront developments, and sports
stadia. They also offer nonhousing personal loans, for
example, to individuals who wish to purchase a boat or
fund a college education and provide retail banking
Master‘s
Degree
services such as checking and saving accounts and credit
cards. However, retail banking is a relatively small part of
their activities and often the segment that generates the
least profit.
INVESTMENT BANKING Legally differentiated from com-
mercial banks by the McFadden Act (1927) and the GlassSteagall Act of 1933 (since repealed), investment banks are
involved in buying and selling securities such as stocks,
bonds, futures, and derivatives. They also provide specialized expertise and capital to facilitate corporate mergers,
takeovers (friendly or hostile), and leveraged buyouts. Like
commercial banks, investment banks buy and sell foreign
exchange.
SAVINGS AND LOANS Also known as thrifts, savings and
loans (S&Ls) have traditionally been involved in only one
market, mortgages for houses. Thus they are the largest
source of home loans and play a critical role in structuring
the residential geography of cities (including such activities as redlining, or denials of mortgages to low-income
minority communities). However, with the deregulation of
the finance industry in the 1980s, savings banks began to
diversify, penetrating the commercial real estate market,
with horrific consequences that led to a large federal government bailout in the early 1990s, an example of state
intervention (Chapter 5).
INSURANCE Insurance is a sector largely centered on the
commodification of risk. Insurance policies, paid for
by premiums paid by households and firms, provide
protection from unexpected loss. There are many types of
insurance, including property (e.g., for houses), casualty,
life, health, automobile, and even nursing home and
pet care!
228
The World Economy: Geography, Business, Development
The Regulation of Finance
Compared to most industries, the finance industry is highly
regulated. The reasons for the comparatively high degree
of government control lie in the centrality of finance to
current economies. The behavior of financial firms profoundly affects the national money supply, which in turn
shapes national interest, inflation, and exchange rates.
Virtually all countries have a national bank of some
sort to regulate their financial sector. In Britain it is the
Bank of England; in Germany, the Deutschebank; in
Japan, the Bank of Japan. In the United States, this role is
played by the Federal Reserve, which was set up in 1913.
The Federal Reserve, whose chair is appointed by the
president, consists of 12 Federal Reserve Banks (Figure
8.21), the most important of which is located in New York
City. It attempts to manage, among other things, interest
rates and the money supply by regulating the federal
funds rate, the reserve ratios of commercial banks, and the
buying and selling of government securities.
In the 1930s, as the banking system was devastated by
a wave of bankruptcies created by the Depression, the
federal government introduced a variety of new regulations to stabilize the system. These included separating
commercial and investment banking and a series of laws
prohibiting interstate banking that were designed to pro-
tect small local banks from competition from larger outof-state ones, particularly those in New York. The result of
this regulatory system in the United States was a highly fragmented, decentralized system of banking. There are today
more than 5000 banks in the United States, compared to 15
in Canada. However, the number of banks in the United
States is declining as a wave of mergers and acquisitions
has reshaped the industry. Most banks are small in size,
with relatively few employees and assets, and serve local
clients (i.e., they are nonbasic). Financially, the industry is
dominated by “money-center” banks, large, commercial
giants with international ties, most of which are headquartered in New York. Only 2% of all American banks, for
example, own 50% of all bank assets. Thus, while financial
employees are present in most towns throughout the
United States, the largest concentrations are in large metropolitan areas near New York, Boston, Los Angeles, and
San Francisco (Figure 8.22).
It should be noted that the regulated system of banking worked relatively well for roughly 50 years (i.e., the
period between the Depression of the 1930s and the great
changes that swept the world economy in the 1970s and
1980s). International banking was stabilized during this
time by the Bretton-Woods Agreement of 1947, in which
the United States and its allies set up the architecture for
the global financial system after World War II (Chapter 12).
9
1
2
Cleveland
Minneapolis
3
Chicago
7
12
5
8
11
Philadelphia
Board of
Governors
10
30N
New York
St. Louis
Kansas City
San Francisco
4
Boston
Richmond
Atlanta
6
Dallas
Alaska and Hawaii
are part of the
San Francisco
District
25N
FIGURE 8.21 The 12 districts of the U.S. Federal Reserve, the agency responsible for controlling the nation’s money supply. The head
of the Federal Reserve is appointed by the president for a 6-year term.
Chapter 8 • Services
229
U.S. Financial Services Employment, 2000
0 to 3000
3000 to 6000
6000 to 16000
16000 to 182191
FIGURE 8.22 U.S. financial services employment, 2000.
The number of bank bankruptcies was very low. In the
1970s and 1980s, however, much as manufacturing was
shaken by petrocrises and deindustrialization, the banking
system was forced to confront a radically different environment. The collapse of the Bretton-Woods agreement
and the shift to floating exchange rates opened up currency
trading as a major source of revenues. Rising debt levels
in the developing world were another factor that accentuated the globalization of banking as large banks extended
loans to countries in Latin America and Asia. The microelectronics revolution introduced new ways of serving customers (e.g., automatic teller machines), and electronic funds
transfer systems allowed money to be transmitted digitally.
As the relatively safe period following World War II drew
to a close under mounting international competition and
domestic deregulation, commercial banks found themselves
in an increasingly hostile and competitive environment, to
which many succumbed. As finance became increasingly
globalized, the pressures at home to deregulate mounted
accordingly.
The Deregulation of Finance
Beginning in the 1970s, the U.S. government undertook a
series of actions that had far-reaching consequences in
many industries, particularly real estate. In 1974, money
market mutual funds were introduced, which sharply
increased competition for core banking deposits. In 1979,
the Federal Reserve switched from a policy of stabilizing
interest rates to a policy of slowing money growth in
order to combat inflation. In 1980, Congress passed the
Depository Institutions Deregulation and Monetary Control
Act, and in 1982, the Garn-St. Germain Act, which permitted thrifts (savings and loans) to compete with commercial
banks and eliminated geographic limitations on S&L lending. Deregulation included the removal of interstate banking regulations, which led to a national banking market
dominated by a few giants. Finally, this process extended
to the removal of restrictions governing pension and
mutual fund portfolios, the abolition of fixed commissions
on stock market transactions, the approval of foreign
memberships on stock markets, and the repeal in 2001 of
the Glass-Steagall Act, which had separated commercial
from investment banking since the Great Depression.
These changes effectively liquidated the relatively
stable division of markets and lending sources that had
existed since the 1930s (commercial banks in commercial
property lending, thrifts in residential lending), increased
the liquidity and level of competitiveness of finance capital
as new institutional players entered the commercial market,
and markedly altered the role of the local state in attracting
development. The two institutions most heavily affected
230
The World Economy: Geography, Business, Development
by these developments were commercial banks and the
savings and loans institutions.
An important consequence of deregulation was
increased competition in banking, particularly as noncommercial banks invaded traditional commercial bank
markets. S&Ls entered the commercial real estate market,
and many large retailers (e.g., Sears) began to offer their
own credit cards. For banks, these trends were most
unwelcome because they reduced their profit margins. In
response, many banks diverted funds in their investment
and loan portfolios to higher-risk/higher-return opportunities or by becoming more leveraged in commercial real
estate. Many banks, desperate for new avenues of investment, began to raise funds from foreign banks or on
the increasingly globalized securities markets, or moved
away from traditional lending practices into such highervalue-added practices as currency trading and cash.
Commercial real estate has always been the bread and
butter of commercial banking; U.S. banks carry more than
$800 billion in commercial real estate loans. Deregulation
unleashed an enormous wave of investor-driven construction of commercial real estate in the 1980s and 1990s, as
commercial banks and S&Ls, with funds augmented by
junk bonds, joined mutual funds, insurance companies,
and others in a massive surge of investment in these lucrative projects, particularly office towers and shopping malls.
Many banks have the vast majority of their net worth tied
up in offices, shopping centers, and hotels. Consequently,
in the 1990s, a serious nationwide office glut appeared,
vacancy rates climbed, and commercial rents fell, all of
which precipitated a wave of commercial bank and S&L
failures and a hugely expensive federal government
bailout.
The Financial Crisis of 2007–2009
As we have seen, capitalism is regularly given to periodic
downturns and crises (Chapter 5). The latest example is
the “Great Recession,” the most severe and long-lasting
economic crisis since the Great Depression of the 1930s.
Although the crisis was not confined to financial services—
indeed, manufacturing workers suffered the worst rounds
of layoffs—it did originate there. The crisis should be seen
within the context of the high levels of U.S. government,
corporate, and household debt that had been accumulating for decades.
The causes of the crisis are complex and involve several forces. The deregulation of financial industries and
very lax government oversight set the stage for an explosion of complicated activities, including derivatives (contracts whose value is derived from other values such as
stocks, bonds, or commodities) and the “financialization”
of mortgages, that is, the repackaging of individual home
loans into bundles that were traded on financial markets.
Meanwhile, the Federal Reserve kept interest rates very
low, stimulating the demand for loans by individuals and
corporations alike. Simultaneously, predatory lenders
extended mortgages to numerous unqualified, often naïve
individuals, generating a vast pool of “subprime” (often
variable interest rate) loans susceptible to small disruptions
in the economy. As a result, housing prices rose much
faster than did household incomes in the 1990s and 2000s,
a trend that is not sustainable in the long run.
As this house of cards began to collapse, a wave of
mortgage defaults began to erupt, as many homeowners
were not able to keep up with their monthly payments.
Banks, in turn, initiated foreclosures on those who fell far
behind in their payments; by mid-2009, almost 2% of mortgages were in this state. Accordingly, housing prices began
to decline for the first time in years, and new construction
came to a halt, crippling the construction industry. Many
homeowners found themselves, in the lingo of the industry, “under water,” that is, with mortgages that exceeded
the value of their homes.
The housing crisis was most pronounced on the East
and West coasts; the country’s interior was less affected.
In 2010, for example, 50% of mortgages in Arizona were
under water. As the effects of the housing crisis rippled
through the economy, consumer spending slowed down,
depressing earnings in other sectors, many of which already faced mounting international competition. Banks
became reluctant to extend new loans, leading to a “credit freeze” that deprived qualified borrowers and investors
of much-needed capital. The Dow Jones Industrial
Average plunged more than 60% between the fall of 2007
and early 2009, devastating investors as well as the lifetime savings of many individuals, some of whom had to
postpone retirement as a result. Unemployment doubled,
rising to 10.5% in June 2010, a level unseen since the
1930s, and millions more people simply dropped out of
the labor market. During this period, the U.S. economy
shed more than 8 million jobs, greatly depressing consumer spending, and the effects reverberated throughout
the world. Manufacturing was particularly hard hit, and
the automobile companies found themselves on the verge
of bankruptcy (General Motors did indeed file). As income, sales, and property tax revenues declined, many
state, county and municipal governments found themselves slashing social services just as ever more people
needed public relief.
In response to the crisis, two presidential administrations—those of George W. Bush and especially of Barack
Obama, who took office as the crisis was well underway—
initiated rounds of federal interventions designed to aid
the economy, a revival of the Keynesian economic policies
common in the 1930s, which added to the federal
government budget deficit. (Note the critique of the
“free market” argument in Chapter 5.) These measures
included the Troubled Assets Relief Program (TARP),
designed to assist troubled companies with $700 billion
in funds. Central to this effort was a large “bailout” of
the banks, including hundreds of billions of dollars to
lenders and insurance companies, designed to free up the
capital markets and get lending going again. For example,
Chapter 8 • Services
the government lent American Insurance Group more than
$160 billion. The federal government came to own a large
share of stocks in many firms, including General Motors
and the American Insurance Group. Substantial aid was
given to mortgage brokers, including the giants Freddie
Mac and Fannie Mae. Additionally, a “stimulus package” of
roughly $787 billion passed Congress, generating both
assistance for beleaguered state and local governments
and numerous federal projects designed to improve the
infrastructure and the educational system. General agreement exists among economists that such measures likely
saved the economy from another depression; however, as
of mid 2010, the U.S. economic situation remains fragile
and unemployment still hovers around 9.5%.
Design and Innovation
Management consultants support the production process
by improving management systems and by increasing the
productivity and profitability of their clients. They also
encourage innovations, especially in administrative practices. Consultants can act as catalysts for introducing or
encouraging change. There are, however, other producer
services that play an important, direct role in supporting,
encouraging, and developing innovation.
Traditionally, manufacturing rather than services has
been regarded as the source of innovation. Today, services are an important part of innovation: Education provides a skilled workforce; universities conduct research
and development; and research companies perform
product testing, product naming, brand development,
and product or service development. Some of the most
important producer services directly involved in product
innovation are provided by design companies. A manufacturer employs an industrial designer to assist in making
changes that will increase the demand for a product. The
task involves understanding public tastes and altering
products to make them more attractive to the consumer.
Design is an integral part of the production process but is
separate from the actual manufacturing process; rather it
informs and is informed by it. Small to medium-sized
firms frequently employ private design companies; large
companies (e.g., automobile manufacturers) have inhouse design departments but can still employ external
designers.
As happens with most providers of producer services,
informal or formal networks of small design companies
and sole practitioners develop. Networking with other
companies allows information and experience to be
shared and can also lead to collaborative partnerships,
which allow small companies to provide a range of services
that can compete with those provided by large companies.
Small companies can be flexible as collaborations or temporary coalitions of different service suppliers, associations
that can be re-formed on a client-by-client basis. This
STUDIES OF MAJOR PRODUCER
SERVICES BY SECTOR
Services are a very broad group of industries with widely
varying attributes. To appreciate this diversity, we now
turn to several important service industries, including
accounting, design, and legal services.
Accounting
Accounting is one of the most important professions in
advanced capitalist economies (Figure 8.23). Modern
financial auditing began to emerge in the middle of the
nineteenth century, when the ownership and control of
firms became separated. With this separation, increasingly
detailed financial statements were required so that investors would have sufficient information to make their
decisions. For most companies, an annual audit undertaken
by a professional accountant is a legal requirement, forcing
them to enter into a short- to medium-term relationship
with an accounting firm. This relationship allows the accountant to sell related services, such as tax advice, estate
management, and consulting. The audit process provides
an independent check for shareholders into the activities
of publicly owned enterprises.
80°N
80°N
ATLANTIC
40°N
40°N
OCEAN
Tropic of Cancer
Tropic of Cancer
20°N
20°N
PACIFIC OCEAN
0°
140°W
PACIFIC OCEAN
100°W
Equator
0°
80°E
160°E
INDIAN OCEAN
ATLANTIC
20°S
Tropic of Capricorn
OCEAN
Tropic of Capricorn
40°S
KPMG Peat Marwick office locations
60°S
Antarctic Circle
231
60°S
0°
FIGURE 8.23 Offices of KPMG Peat
Marwick, the world’s largest accounting
firm. Accountants, lawyers, and other
professionals cluster in world cities to
provide advise to major corporations and
financial institutions. As centers of finance,
world cities attract the headquarters of
producer services-major banks, insurance
companies, and specialized financial
institutions, where corporations obtain and
store funds for expansion and production.
232
The World Economy: Geography, Business, Development
strategy enables small companies to provide a variety of
services but without having to employ full-time specialists.
It also enables them to deliver services outside their local
area by drawing on companies located in other places.
Legal Services
Legal services may be employed by individuals and
households, on the one hand, as consumer services and
by corporations, on the other hand, as producer services.
The services that law firms provide to corporations,
which may include accounting and investment advice,
are highly specific to the needs of individual clients.
These services include help in negotiating a highly complicated legal environment—torts, patents, and product
liability; bankruptcy; employment law and antidiscrimination ordinances; antitrust restrictions; tax law; trade
agreements; venture capital negotiations; joint venture
agreements; technology transfer protocols; reinsurance;
corporate mergers, buyouts, acquisitions, and takeovers;
and intellectual property rights. In an increasingly uncertain production environment characterized by huge and
unpredictable changes in markets, government regulations, technology, and output, the demand for legal services arises from the proliferation of management tasks,
such as those made necessary by strategic planning and
coordination.
In many sectors, deregulation has accentuated the
uncertainty faced by many firms and increased the need for
legal services, as did the wave of late-twentieth-century
vertical disintegration of production, which led to a steady
contracting out of many functions formerly performed inhouse. More recently, many large law firms have diversified
into advising, consulting, debt restructuring, and deal brokering, competing directly against other large services
providers based in other industries.
In the United States, legal services are characterized
by high degrees of spatial and functional agglomeration,
primarily in large cities, and close interaction with clients
and suppliers. The prime reason behind the geographical
concentration of such firms in metropolitan regions is the
ready access they offer to clients, suppliers, and ancillary
services, most of which is accomplished through face-to-face
interaction. Because personal relationships in which trust
and reputation are of paramount significance figure prominently in the practice of law, legal services are heavily
embedded in local cultural relations and require frequent
personal contacts. For these reasons, and others, New
York City remains the nation’s capital of domestic corporate
law, and Washington, DC, is the center of governmentrelated legal practice.
The practice of law is dominated by large firms, a type
of organization that began with the birth of corporate law
in the late nineteenth century. These large firms currently
influence disproportionately the structure of incentives, rewards, prestige, and employment in the sector, and they
shape the nature of litigation in government, finance, and
the business community. Large law firms commonly have
several branch offices employing dozens, even hundreds,
of attorneys.
Mounting international trade and investment has led
to increasing demand for international legal services. After
World War II, the outflow of U.S. capital across the world
attracted numerous firms eager to serve multinational
clients. Thus, the globalization of services often followed
the path set by manufacturing firms. The foreign operations
of international law firms were originally highly correlated
with multinational corporate trade in goods, but increasingly it is the global markets in finance and real estate that
dictate the geography of demand. During the first wave of
globalization, in the 1960s and 1970s, most firms handled
foreign work exclusively through their home office, but
throughout the 1980s and 1990s, locating offices abroad
came to be increasingly important. The principal markets
for international law firms tend to be in highly developed
countries with well-developed corporate economies, high
degrees of international trade, and relatively high per capita
levels of income (as the demand for legal services is
income-elastic).
The practice of international law involves a crazy quilt
of varying national legal systems, qualifications to practice,
and barriers to entry for foreigners. What constitutes the
profession of law varies around the world; there is considerable diversity as to the requirements and obligations of
lawyers, including education, licensing requirements,
scope of practice, standards of conduct, ethics, and forms
of association. There are also significant national variations
in the degree to which foreign attorneys may practice in
different countries; virtually all countries constrain foreign
attorneys from practicing law within their borders to some
extent.
Law is a clubby work environment in which reputation is critical, and foreigners are often informally, if not
formally, excluded as outsiders. The practice of law relies
heavily on tacit local culture and networks, so international
law firms must incorporate local knowledge with global
expertise, a reflection of the limited substitutability that
characterizes this sector. Local firms fearful of foreign competition may urge formal restrictions on foreign lawyers,
such as establishing nontariff barriers like those the
Japanese attempted to exclude American firms from their
domestic market, difficult licensing requirements, mandated
cooperation with local firms, or outright prohibitions from
certain kinds of legal practice. Perhaps for these reasons,
the globalization of legal services has occurred more slowly
than that of other services.
Typically, it is large law firms with a long history of
service to corporate clients that are best positioned to
engage in international practice, which involves high startup costs, short-term losses, and reliance on economies of
scale. This fact favors a group of giants in a limited number of locations. Some of the largest law firms, such as
Baker and McKenzie, are true multinationals in their own
right. Size is a key asset in foreign markets because it offers
“brand-name” predictability and credibility (i.e., the necessary critical mass of expertise); reputation is an important
Chapter 8 • Services
proxy for reliability and quality of service. International
law firms may offer services either directly from their
headquarters office or via overseas branch offices, subsidiaries, and affiliates with varying degrees of autonomy.
Their clients may be either foreign corporations operating
abroad or local companies drawing on the resources of the
multinational firm, which often has large pools of attorneys with highly specialized expertise. Often, international
legal services are provided through “co-counseling” agreements, strategic alliances between foreign and domestic
firms, a common feature of post-Fordist capitalism.
However, national variations in legal systems have made
the formation of transnational law firms an exceedingly
complicated matter.
Interregional Trade in Producer Services
A view long held among many planners, academics, and
development officials is that services are nonbasic: They
function in the local or regional economy essentially as support for the basic goods-related activities that are engaged in
interregional trade and that generate the revenues that create the demand for services. If one takes away the basic
goods-producing activities, this view holds, the demand for
services will decline and they will accordingly contract.
However, these ideas are erroneous. In fact, producer services also play a basic role in regional development in their
own right, although how they do so is less well understood.
Head offices are more likely to have an orientation
toward exports; the extent to which independent, singleestablishment firms have this orientation varies according
to their size. It is generally the case that the more specialized the service, the more likely it is to derive revenues
from exports. Advertising, architecture and engineering,
design, computing, research and development, real estate,
management consulting, or transport services are more
export-oriented than legal, banking, or equipment rental
services, which rely for a larger proportion of their sales
revenues on local clients. Overall, interregional service
trade within individual countries is considerable, around
35% of total sales and rising.
THE LOCATION OF PRODUCER SERVICES
Where producer services are located and the functions that
they perform are increasingly important given their rapid
growth. Generally, highly skilled, high-value-added functions such as financial and business services concentrate in
metropolitan regions (Figure 8.24). Two-thirds of business
and professional services jobs in the United States are
located in large urban areas. Agglomeration economies,
such as the minimization of transaction costs between
locally based suppliers and subcontractors, the lower costs
of accessing a pool of labor with a wider range of skills,
superior transportation infrastructure and facilities, access
to specialized information, and a range of office accommodations and telecommunications facilities play a large part
in explaining this tendency.
INTERNATIONAL TRADE IN SERVICES
Like agricultural and manufactured goods, services are
traded internationally. It is difficult to measure international
services transactions, however, because measurement is
WORLD CITY
Seattle
45°
DOMINANT
MAJOR
45°
Portland
Secondary
Boston
Minneapolis
Cleveland
40°
CHICAGO
San
Francisco
Columbus
Indianapolis
Cincinnati
Denver
Kansas City
NEW
YORK
40°
Subregional
35°
St. Louis
LOS ANGELES
Atlanta
Phoenix
ATLANTIC
OCEAN
Dallas
PACIFIC
OCEAN
30°
Houston
Functional
Government/
Education
Resort/retirement
0
0
SPECIALIZED
PRODUCERSERVICE CENTER
DEPENDENT
CENTER
New Orleans
25°
COMMAND &
CONTROL CENTER
Regional
Philadelphia
Baltimore
Washington
35°
30°
200
200
Miami
400 MILES
25°
Manufacturing
Industrial/Military
400 KILOMETERS
Mining
120°
115°
95°
FIGURE 8.24 Business services cities in the United States.
233
90°
85°
234
The World Economy: Geography, Business, Development
complicated by developments in information technology.
The Internet allows diffusion in geography and location;
servers can be located in multiple locations and can be run
by multiple companies. In addition, the Internet blurs the
distinction between tangibles and intangibles. Goods that
are ordered electronically and distributed internationally
can be tracked by conventional taxation and tariff systems
without too much difficulty. The same cannot be said for
services that are supplied online, especially those that are
digital or that can be rapidly digitized unlike the traditional
across-the-border delivery of goods and services.
An example of this problem is electronic trade in
packaged computer software; the sector also comprises
services—advertising, computer services, financial services,
entertainment, and other media, such as newspapers, periodicals, and music, radio, and television broadcasting—
newspapers, software packages, CDs, and DVDs can all be
converted into bits and delivered electronically. The
United States has traditionally dominated electronic software distribution, but the packaged software market is
becoming more global each year. The tracking of imports
and exports is seriously hampered by measurement problems. An estimated 50% or more of packaged software is
directly downloadable from the Internet, and electronic
sales represent roughly 6% of the world software market.
Border valuations of the trade are based on the medium
(CD-ROMs) rather than the content (the software), which
is significantly more valuable than the medium. Not only is
the value of the software underestimated but the value of
copyrighted works sold in foreign markets is also overlooked. In addition, computer software is often bundled
with hardware (e.g., Microsoft software and Intel processors), and many other products, such as cameras, cars, and
washing machines, also incorporate highly sophisticated
electronic software.
Different services require a combination of different
factors of production, such as finance capital, knowledge
capital, information technology and telecommunications,
labor supply, educational qualifications of the labor
force, and so on. Some services are labor-intensive and
involve simple tasks (call centers, data-processing services);
others are knowledge-intensive and nonroutine (professional and business services). Thus, different types of
services will locate in different regions in the ongoing
attempt to minimize costs and maximize revenues. These
issues are most clearly apparent in the financial and business quarters of large, globalized cities like New York,
London, Hong Kong, and Singapore. The shift from comparative to competitive advantage (Chapter 12) as the
basis for understanding trends and patterns of international trade in services has highlighted the central role of
service firms rather than countries. The key players in
this context are transnational service corporations (TNCs)
that, in addition to shaping patterns of trade, are also
associated with the rising importance of foreign direct
investment (FDI). Noneconomic determinants of the
growth in services TNCs include social and cultural differences between countries that also make it difficult to
compete at arm’s length (such as in law or advertising),
thus encouraging direct representation in some form in
order to match service supply with the nuances of local
or regional characteristics.
Another perspective on services TNCs is the global
value-added chain, which includes distribution, marketing,
advertising, and similar functions. As business functions
within TNCs have become more specialized, the links
among different stages in the production process have
spread out. In both services and manufacturing, highvalue-added functions tend to agglomerate in large cities;
conversely, support and clerical services have been widely
dispersed. Clustering is now a global phenomenon; TNCs
require co-location with information and knowledge
providers, other service providers, and competitors.
Electronic Funds Transfer Systems
Financial markets all over the world were especially affected
by the digital revolution, which essentially eliminated the
costs of capital transactions and transmissions much in the
same way that deregulation and the abolition of capital
controls decreased regulatory barriers. Banks, insurance
companies, and securities firms, which are very informationintensive, have led in the construction of an extensive
network of leased and private telecommunications networks, particularly fiber-optic lines (see Chapter 9).
Electronic funds transfer systems (EFTS), in particular, which form the nervous system of the international
financial economy, allow banks to move capital around at a
moment’s notice, taking advantage of geographic differences in interest rates and exchange rates and avoiding
political unrest (Figure 8.25). One of the primary forms of
EFTS is Real Time Gross Settlement (RTGS) systems, which
handle money flows among financial institutions and governments. The largest of these is the U.S. Federal Reserve
Bank’s Fedwire system, which allows any depository institution with a Federal Reserve account to transfer funds to the
Federal Reserve account of any other depository institution.
In 2005, total Fedwire traffic amounted to $2.1 trillion per
day. The other major U.S. payments mechanism is the privately owned Clearing House Interbank Payments System
(CHIPS) in New York, operated by the New York Clearing
House Association, a consortium run by private firms, that
clears about $1 trillion in daily transactions, half of which is
in foreign exchange. In Europe, the Belgian-based Society
for Worldwide Interbank Financial Telecommunications
(SWIFT), formed in 1973, plays a comparable role; SWIFT
extends into 208 countries and handles 2.6 billion euros
daily in transactions. In the United Kingdom, settlements are
made through the Clearing House Association Payments
System run by the Bank of England; in the European
Community, a system linking the banks of member states
known as Trans-European Automated Real-time Gross settlement Express Transfer (TARGET), which began in 1999, is
used to settle transactions involving the euro. In Japan, starting in 1988, the Bank of Japan Financial Network System
fulfills a comparable function.
Chapter 8 • Services
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FIGURE 8.25 The world’s major stock markets are linked by telecommunications networks, which greatly facilitates round-the-clock
trading and the movement of capital across national borders. Horizontal lines indicate the hours when each exchange is open
compared to other cities. The numbers at the bottom indicate time zones, with 0 representing Greenwich Mean Time.
Private firms have similar systems. Citicorp, for example, has a Global Information Network that allows it to
trade $200 billion daily in foreign exchange markets
around the world. MasterCard has its Banknet, which
links all its users to a centralized database and payments
clearing system. Reuters, with 200,000 interconnected terminals worldwide linked through systems such as Instinet
and Globex, alone accounts for 40% of the world’s financial trades each day. Other systems include the London
Stock Exchange Automated Quotation System, the Swiss
Options and Financial Futures Exchange, and the
Computer Assisted Order Routing and Execution System
at the Tokyo stock exchange. Such networks provide the
ability to move money around the globe at stupendous
rates (the average currency trade takes less than 25 seconds); supercomputers used for that purpose operate at
teraflop speeds, or 1 trillion computations per second.
Similarly, in the securities markets, EFTS facilitated
the emergence of 24-hour day trading by linking stock
markets through computerized trading programs.
Electronic trading frees stock analysts from the need for
face-to-face interaction to gain information. Online trading also allows small investors to trawl the Internet for information, including real-time prices, and execute trades
by pushing a few buttons, eroding the advantage once
held by specialists. Trade on many exchanges has risen
exponentially as a result. The National Association of
Security Dealers Automated Quotations (NASDAQ), the
first fully automated electronic marketplace, is now the
world’s largest stock market; lacking a trading floor, NASDAQ connects millions of traders worldwide through the
over-the-counter market, processing 2000 transactions
per second. EASDAQ, the European version of NASDAQ
launched in 1996, operates similarly, albeit on a smaller
scale. Facing the challenge of online trading head-on,
Paris, Belgium, Spain, Vancouver, and Toronto all recently abolished their trading floors. The volatility of trading,
particularly in stocks, also increased—hair-trigger
computer trading programs allow fortunes to be made
(and lost) by staying microseconds ahead of (or behind)
other markets.
Liberated from gold, traveling at the speed of light as
nothing but assemblages of zeros and ones, global money
performs a syncopated electronic dance around the world’s
neural networks in astonishing volumes. The world’s currency markets, for example, traded roughly 4 trillion in
U.S. dollars every day in 2007, dwarfing the funds that
change hands daily to cover global trade in goods
and services. This ascendancy of electronic money shifted
the function of the finance sector from investing to speculation, institutionalizing volatility in the process. Foreign
investments have increasingly shifted from foreign direct
investment (FDI) to intangible portfolio investments such
as stocks and bonds, a process that reflects the securitization of global finance. Unlike FDI, which generates
predictable levels of employment, facilitates technology
236
The World Economy: Geography, Business, Development
transfer, and alters the material landscape over the long
run, financial investments tend to create few jobs and are
invisible to all but a few agents, acting in the short run
with unpredictable consequences. Further, such funds are
often provided by nontraditional suppliers: A large and
rapidly rising share of private capital flows worldwide
is no longer intermediated by banks but by nonbank institutions such as securities firms and corporate financial
operations. Thus, not only has the volume of capital flows
increased but their composition and the institutions
involved have changed.
Globalization and electronic money have had particularly important impacts on currency markets. Since the
shift to floating exchange rates, trading in currencies has
become a big business, driven by the need for foreign currency that is associated with rising levels of international
trade, the abolition of exchange controls, and the growth
of pension and mutual funds, insurance companies, and
institutional investors. The vast bulk (85%) of foreign
exchange transactions involve the U.S. dollar. Typically,
the moneys involved in these markets follow the sun. For
example, the foreign exchange (FOREX) market opens
each day in East Asia while it is still evening in North
America; funds then travel west, bouncing from city to city
over fiber-optic lines—from Tokyo to Hong Kong to
Singapore to Bahrain to Frankfurt, Paris, or London, then
to New York, Los Angeles, and back across the Pacific
Ocean. (Given the continuous circularity of this movement, funds can originate anywhere and circle the globe
within 24 hours.)
Electronic money can be exchanged an infinite number of times without leaving a trace, making it difficult for
regulatory authorities to track transactions, both legal and
illegal. The opportunities for money laundering are thus all
the more numerous. As electronic money has become the
norm, tax evasion has thus become an increasingly serious
problem. Moreover, the jurisdictional question—who gets
to tax what—is vastly more complicated. Digital counterfeiters can also take advantage of the system to use the
Internet to create currencies anywhere.
Offshore Banking
One important effect of the telecommunications revolution
on the world of finance is the emergence of offshore banking
centers, which are loosely regulated or even unregulated.
These centers reflect the growth of globalized “stateless
money.”
The origins of the contemporary, deregulated, globalized financial system lie in the Euromarket of the 1960s.
The Euromarket arose in large part because of the large
trade surpluses that western European countries enjoyed
with the United States, which left them with large sums of
excess dollars, known as Eurodollars. Thus, originally, the
Euromarket comprised only trade in assets denominated in
U.S. dollars but not located in the United States; today, it
has spread far beyond Europe and includes all trade in
financial assets outside of the country of issue (e.g.,
Eurobonds, Eurocurrencies), not just currencies. One of
the Euromarket’s prime advantages was its lack of national
regulations: Unfettered by national restrictions, it has been
regarded by neoclassical economists as the model of market efficiency. Banks in the United States invested in the
Euromarket in part to escape domestic restrictions like the
Glass-Steagall Act, which prohibited commercial banks
from buying and selling stocks until it was repealed in
1997 as part of the broader deregulatory wave in financial
markets.
Beyond the Euromarket, globalization spawned the
growth of offshore banking centers, often in very small
countries (and not always offshore, i.e., on islands).
Offshore banking centers offer regular commercial
services (e.g., loans), foreign currency trades and speculation, access to electronic funds transfer systems, asset
protection (insurance), investment consulting, international tax planning, and trade finance (e.g., letters of
credit). There are five major world clusters of offshore
finance, including the Caribbean (e.g., the Cayman
Islands, Bahamas, Panama); Europe (e.g., Isle of Man,
Jersey, Luxembourg, Liechtenstein, Andorra, San Marino);
the Middle East (Cyprus, Lebanon, Bahrain, Abu Dhabi);
Southeast Asia (Hong Kong, Singapore); and the South
Pacific (Nauru, Vanuatu) (Figure 8.26). The emergence of
such places reflects the flows of electronic money across
the global topography of financial regulation as large financial institutions shift funds to take advantage of lax
regulations and low taxes found on the periphery of the
global financial system. Many such places, although by
no means all of them, have dubious reputations as centers of money laundering, that is, as places in which illicit funds garnered through international drug or weapons
sales are converted into legitimate monies.
As the digital revolution allowed global capital to circulate more freely and rapidly, the technological barriers
to moving money declined dramatically. Accordingly, spatial variations in the nature and degree of regulation rose
in importance. Even small differences in regulations concerning taxes or repatriated profits may be sufficient to induce large quantities of capital to enter, or exit, particular
places. Thus, many small states attempt to attract finance
capital by deregulating as much as possible, lifting controls
over currency exchanges, investment, and repatriated
profits, and by eliminating taxes in the hope that global
money will select their locale. By making it possible for
funds to cross national borders at will, offshore banking
reworks the notion of national sovereignty: Nation-states
retain political sovereignty but sacrifice their financial sovereignty.
Back-Office Relocations
Large service corporations generally divide their labor
force into two major segments: those associated with
headquarters and those that carry out back-office func-
Chapter 8 • Services
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FIGURE 8.26 Five major areas of world offshore banking.
tions. Headquarters functions typically involve skilled
professionals, including executives and managers as well
as those who perform research, publicity, finance, legal
work, accounting, engineering, marketing, and product
development (Chapter 5). Back offices, in contrast, perform data entry of office records, compile telephone
books, catalog libraries, perform payroll and billing, and
process bank checks, insurance claims, and magazine
subscriptions. These tasks involve unskilled or semiskilled
labor, primarily women, and frequently operate on a 24hour-per-day basis. Unlike headquarters, back offices
have few links to clients or suppliers. These facilities
require extensive computer capacity, reliable sources of
cheap electricity, and sophisticated telecommunications
networks.
Historically, back offices were located next to headquarters activities (i.e., behind the front office) in downtown areas to ensure close management supervision and
rapid turnaround of information. However, as central city
rents rose in the 1980s and 1990s and companies faced
shortages of qualified (i.e., computer-literate) labor, many
firms began to uncouple their headquarters and backoffice functions, moving the latter out of the downtown to
cheaper locations on the urban periphery. This uncoupling
was made possible by the introduction of digital telecommunications, including microwave transmission. Back offices
that moved to the suburbs often found pools of female
labor willing to work part-time, generally consisting of
married women with small children. Moreover, the suburbs
offered ample parking, lower crime rates, and cheaper
taxes and electricity. A considerable part of the suburban
commercial boom of the late twentieth century consisted
of back offices.
More recently, given the increasing locational flexibility
provided by satellites and fiber-optic communications
lines, back offices have also begun to relocate on a much
broader, continental scale. Many financial and insurance
firms and airlines moved their back offices from New
York, San Francisco, and Los Angeles to lower-wage communities in the Midwest and South. Omaha, Nebraska, saw
the creation of thousands of telegenerated jobs because of
its location at the crossroads of the national fiber-optic infrastructure. Boulder, Colorado, Albuquerque, New Mexico,
and Columbus, Ohio, have taken much the same direction.
Internationally, back-office dispersal began by moving
to offshore locations. But this trend remained insignificant
until transoceanic fiber-optic lines enabled relocation on
an international scale. The capital investments in such operations are minimal and they possess great locational flexibility to maximize the ability to choose among places
based on minor variations in labor costs or profitability.
Offshore back offices are established not to serve foreign
markets, but to generate cost savings for U.S. firms by
tapping Third World labor pools where wages are low
compared to those in the United States. Notably, many
firms with offshore back offices are in industries facing
238
The World Economy: Geography, Business, Development
Insurance Claim Form Sent by Air
Shannon
New
York
Processed Data Returned by
Satellite or Dedicated Line to
Central Data-Processing Office
Processed Data
Returned by Satellite
Dallas
American Airlines
Tickets Sent by Air
Barbados
FIGURE 8.27 Mechanics of relocating American back offices to Ireland and to the Caribbean.
competitive pressures to enhance productivity, particularly
insurance, publishing, and airlines. Several New York–
based life insurance companies, for example, relocated
back-office facilities to Ireland (Figure 8.27) with the active
assistance of the Irish Development Authority. Often situated near Shannon Airport, the principal international
transportation hub, documents are shipped in by Federal
Express and digitized records are exported back via
satellite or by one of the numerous fiber-optic lines that
connect New York and London.
Likewise, the Caribbean, particularly Anglophone
countries such as Jamaica and Barbados, has become a
particularly important location for American back offices.
American Airlines paved the way in the Caribbean when it
moved its data-processing center from Tulsa to Barbados
in 1981; through its subsidiary Caribbean Data Services
(CDS), it expanded operations to Montego Bay, Jamaica,
and Santo Domingo, Dominican Republic. Manila, in the
Philippines, has emerged as a back-office center for British
firms, with wages only 20% of those in the United
Kingdom.
The microelectronics and telecommunications revolutions allowed for the dispersal not only of offshore banks
and back offices but also telephone operators, call centers,
graphic designers, Internet Service Providers (ISPs), and
readers of magnetic resonance imaging (MRI) records, all
of which can be transmitted easily through the Internet.
Such trends indicate that globalization and telecommunications may accelerate the offshoring of many low-wage,
low-value-added jobs from the United States, with dire
consequences for unskilled workers.
Another form of low-wage, low-value-added services
involves centers of telework, often labeled call centers,
which are designed to handle high-volume sales, marketing, customer service, telemarketing, and technical support
calls. Call center functions include telemarketing, customer
assistance, and phone orders. They range greatly in size,
from as few as five to as many as several thousand employees. Like back offices, call centers are primarily
screen-based and do not require proximity to clients. The
major cost consideration is labor, although the workforce
consists primarily of low-skilled women, and high
turnover rates are common. There are an estimated 80,000
to 100,000 call centers within the United States, employing
between 3% and 5% of the national labor force, the majority of which are located in urban or suburban locations.
As with so many industries, call centers have become
increasingly globalized. India, for example, has attracted a
significant number of customer service centers near its
software capital of Bangalore, where workers are trained
to speak with the U.S. dialect of English and are able to
gossip with customers about pop culture. Wages there,
which average $2000 per year, are higher than average
Indian salaries but only 10% of what equivalent jobs pay in
the United States. The next time you call a company about
your cell phone or hard drive or to make an airline reservation, for example, you are likely to be speaking to a
worker in India.
Chapter 8 • Services
CONSUMER SERVICES
The attention paid to services by economic geography has
focused mostly on producer services, those that are sold
primarily to other firms. However, a large part of the
service sector concerns consumer services, those sold to
individuals and households. Consumer services include a
wide variety of industries and occupations—retail trade
and personal services, eating and drinking establishments,
tourism, and sports and entertainment facilities. To some
extent, the health care and education fields can be considered consumer services.
Traditional geographic studies of consumer services
focused on the travel costs incurred in their consumption. Many large retail firms today deploy marketing specialists to assess the market potential of store locations,
including the possible number of consumers, land costs,
and access to transportation routes, an approach that
often employs geographical information systems (GISs).
In economic base theory (Chapter 10), consumer services
are generally considered part of the nonbasic sector (i.e.,
the part of the economy that recycles revenues derived
through the export base). Consumer services, therefore,
have been seen as reliant on the wealth created in other
sectors. Often, however, the line between basic and
nonbasic industries is hard to draw. Financial and legal
services, for example, may be consumed by both firms
and households, and to this extent they, too, are part of
the consumer services sector.
More recently, geographers have taken a fresh look at
consumer services, as potentially basic sectors in their own
right. In some cases, consumer services may form the basis
of local economic development after all. In large cities
with specialized department stores (e.g., New York City),
retail trade lures nonlocal residents in and forms part of
the economic base. Outlet malls in small towns have a
similar function. Tourism and conventions also are consumer services that form part of the economic base.
The distribution of consumer services largely reflects
the affluence of the local client base. When disposable incomes rise, consumer services tend to thrive (they are
income-elastic), although we must remember that the expenditures on goods and services do not rise equally in all
cases. The study of consumer services is thus intimately
linked to local demographics (age, gender, and ethnic factors), the associated tastes and preferences of people, their
inclination to save or spend, and the advertising and other
sources of information that shape their preferences that
affect spending and buying habits (see Chapter 11). The
gender, age, and ethnic composition of the labor force is
also important. Other forces that shape consumer services
include changing household work patterns, the presence of
chains and franchises, regulatory frameworks, and the relative prices of imports and other goods, which themselves
reflect a galaxy of variables in the global economy. The
ever-changing geography of consumer services is also
heavily influenced by the location of different types of
239
purchasing power. For example, as suburbanization drew
much of the middle class and its incomes to the metropolitan periphery, the urban geography of retail trade was
reshaped, leading to an explosion of suburban malls of
various sizes.
Tourism
Tourism is defined as travel to a place outside of one’s
usual residential environment and involving a stay of at
least one night. Tourism is an important consumer service
with enormous international and local implications. It involves a large variety of visitors, including personal as well
as business travelers and conventions, staying over a wide
range of time. Domestic tourists generally outnumber international visitors by a substantial margin, although from
a locality, both types of visitors involve basic sector activities. When tourists spend money at a destination, the destination exports a service.
The growth of tourism reflects the increase in disposable income among a considerable segment of the world’s
population. Although mass tourism began in the nineteenth
century, it grew particularly rapidly after World War II,
when it became an option for the working classes.
Contributing to this trend was the automobile and the
wide-body jet airplane, which greatly reduced transportation
costs. Fundamentally, tourism reflects the highly incomeelastic demand for leisure that accompanies economic
development, a demand that takes various forms: the need
to “get away from it all,” to take a break from routine, and
to seek out education and novelty.
An enormous industry, tourism forms part of the economic base of many countries, including, for example,
Italy, France, and Spain, as well as smaller island states
in the Caribbean, Hawaii, and Florida, and cities such as
New Orleans, Las Vegas, Los Angeles, and New York City.
Table 8.4 shows the distribution of the world’s 797 million
international tourist arrivals in 2008 (12% of the world’s
TABLE 8.4 International Tourist Arrivals, 2008
Region
Visitors (millions)
Europe
441.5
Africa
37.3
North America
85.8
Caribbean
18.1
South and Central America
21.7
East Asia
87.6
Southeast Asia
48.3
South Asia
7.6
Oceania
10.1
Middle East
39.0
World
797.0
Source: World Tourism Organization.
% of World
55.4
4.7
10.7
2.3
2.3
11.0
6.1
1.0
1.3
4.9
100.0
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The World Economy: Geography, Business, Development
Case Study
Medical Tourism
The globalization of economic sectors has expanded to include health care. Traditionally, health care has been relatively unaffected by international trade, and health care
markets were relatively closed national entities. However,
institutions such as the World Trade Organization and
agreements such as the General Agreement on Trade in
Services (GATS) have steadily opened up these markets to
foreign competition, typically focusing only on privately
provided health care. International trade in health care
services includes medical tourism, telemedicine, temporary movements of medical professionals across borders,
and affiliate offices of health care corporations abroad.
Many countries worry about the impacts of this trend on
national health care systems, particularly in terms of
potential “brain-drain” disruptions in service to the poor
and underserved places such as rural areas or from the
public to the private sector and skewed national health
care priorities that emphasize foreigners over domestic citizens. However, the GATS specifically exempts publicly
provided health services that do not compete with privately
provided ones and allows member countries to choose to
what extent they may wish to liberalize health services, if
at all. As with many services traded internationally, the
medical services trade is often hampered by nontariff
barriers, notably licensing requirements, and many states
have policies that charge foreigners extra for treatment.
The United States, with an inefficient and inequitable health care insurance system (the only industrialized country without publicly provided national health
insurance), has witnessed health care costs rise dramatically to roughly 17% of its gross domestic product (GDP),
significantly higher than in Canada, Japan, or Western
Europe. Rising employment opportunities in this sector
have been complemented by imported labor from a variety of countries, particularly India and the Philippines.
An aging baby boom of 80 million people (including
11,000 Americans who turn 50 daily, or one every 8 seconds) has led many to seek medical care abroad. The
United States is also home to large numbers of uninsured
people (47 million) as well as 108 million who lack dental insurance. Many American “working poor” earn too
much to qualify for Medicaid but lack jobs that provide
health care insurance. In addition, there are countless
others who are underinsured, that is, who have health
care insurance policies that cover only the bare minimum, leaving them to pay for many procedures on their
own. Indeed, high medical costs are responsible for 62%
of personal bankruptcies in the United States.
This population, faced with steadily rising medical
costs, has created most of the demand for health care from
foreign providers, generating a steady exodus of medical
tourists to India, Thailand, Singapore, Mexico, Venezuela,
Colombia, Malaysia, Cuba, the Philippines, Costa Rica,
Turkey, the United Arab Emirates, and elsewhere. Medical
tourism, in which the person physically travels to another
country for the purpose of obtaining either medically necessary or optional health-related services, should be differentiated from the outsourcing of medical functions via the
Web, such as teleradiology, or interpretations of U.S. computerized axial tomography (CAT) scans by doctors in
India. Estimates of the number of Americans traveling
abroad annually to seek medical care vary considerably,
depending on the source, but typically range between
180,000 and 750,000, spending at least $2.2 billion.
Medical tourism has accelerated the evolution of
health care in some developing countries toward specialized services oriented to the more lucrative parts of
the health care market. Increasingly, hospitals in the
developing world have built the necessary infrastructure
to serve medical tourists, including specialized skills and
equipment and support staff. As the opportunities for
treatment abroad have multiplied, medical tourists have
availed themselves of them. Initially synonymous with
plastic surgery, medical tourism has long surpassed its
early, purely cosmetic affiliation to include vital, even
life-saving operations. For many countries, it is the most
rapidly growing segment of the tourist market.
Nonetheless, many potential patients are deeply fearful
of the quality and reliability of overseas medical care,
often associating it with poor-quality care or organs purchased from impoverished donors.
Concerns over medical tourism generally center on
the quality of care received and liability for malpractice
in the absence of an international body to regulate the
industry. Courts are usually reluctant to assert jurisdiction
over physicians in other countries, and medical tourism
plaintiffs face a long, uphill battle in attempts to gain
compensation for botched procedures overseas. In this
context, debates over negligence, liability, fraud, misrepresentation of credentials or risks, or lack of informed
consent can be the Achilles heel of medical tourism.
Unlike recreational tourists, who have sufficient
disposable income to travel for leisure, many medical
tourists are individuals and families of modest means,
for whom out-of-pocket health-related costs are an onerous burden. Medical tourists are typically middle-income
Americans evading impoverishment by expensive,
medically necessary operations. Avoiding bankruptcy
and protecting assets such as home equity are often
prime motivations for medical tourists. Of course, not all
medical tourists are on the brink of financial collapse:
Many are financially comfortable and do have health insurance but prefer to avoid paying the steep copayments
or higher premiums that they would still encounter in
the United States, particularly in the case of expensive
medical procedures.
Chapter 8 • Services
Share of World Total International Tourism Receipts 2004
Americas,
16.5%
Africa, 4.4%
East Asia
and Pacific,
20%
Middle East, 4.6%
Europe,
54.5%
FIGURE 8.28 Distribution of global tourism receipts.
population): More than one-half of the world’s tourists
visited Europe (Figure 8.28). France, Italy, and Spain
boast the largest tourist industries in the world, attracting
large numbers of tourists from colder northern climates.
To a lesser extent, East Asia and North America are also
significant.
The types of tourism and tourist destinations are highly
diverse, ranging from low-impact ecotourism to highly
urbanized urban cores, from simple backpacking to luxury
cruises, from safaris to writers’ camps to honeymoon
retreats, from individual explorers to package tours, from
health resorts to Asian sex tourism, from dude ranches to
gay night clubs, from museums and fine art institutes to
tribal cultural events, from small ski resorts to the tropical
playgrounds organized by Club Med. The facilities that accommodate tourists are similarly varied, ranging from large
hotel chains to quaint bed-and-breakfast establishments.
Tourism is often highly seasonal, fluctuating greatly over
the course of a year, with corresponding changes in prices
for hotels and travel.
The volume of tourists to a given destination will
reflect, among other things, the information available to
potential clients; their disposable incomes and willingness
to travel; currency exchange rates; transportation and
lodging supply and costs; the relative cultural familiarity or
degree of exotic appeal the destination may have; concerns
over crime; and unpredictable events such as terrorist
241
attacks. Political restrictions, for example, prohibit U.S.
tourists from visiting Cuba, which attracts visitors from
Europe and Canada.
Economically, the tourism industry consists of a variety
of sectors, including international and local transportation,
hotels and motels, eating and drinking establishments, entertainment, and retail trade. To sustain these activities
requires enormous investments in water, transportation,
communications, and other infrastructures. The impacts of
tourism are varied and often mostly confined to localized
sectors that deal with visitors, such as hotels and retail trade.
In cases where a large share of inputs is not purchased locally, tourism can generate relatively small positive impacts.
“Tourist enclaves” in which visitors have few contacts with
local residents are not uncommon. Often the jobs involved
are unskilled (e.g., janitors) and pay low wages, with low
multiplier effects. Indeed, tourist-dependent economies may
be trapped in the “low road” to economic development. At
times, tourist developments may generate resentment
among locals, who can witness wealthy foreigners frolicking in the sun but who cannot enjoy the benefits themselves. In some cases, particularly in fragile ecosystems,
tourism can have significant detrimental effects on local
flora and fauna. Skiing in the Alps or backpacking in Nepal,
for example, can damage local landscapes by generating
garbage; similarly, high-density tourist developments (e.g.,
Hawaii) can create large quantities of waste.
The tourist area cycle model, which resembles the
product cycle, holds that tourist areas, their attractions,
and the number and type of tourists change in a predictable series of stages over time: (1) exploration, in
which a small number of tourists are attracted to natural
and cultural features and have considerable amounts of
contact with local residents; (2) rising numbers of visitors;
(3) development, where the tourist population during
peak seasons is greater than the local population and foreign capital flows in; (4) consolidation, where marketing
and advertising are used to offset potential declines in
tourists; (5) stagnation, during which the peak number of
visitors is reached, original attractions are displaced by
newly created ones; and (6) decline, in which the number
of visitors falls. Some places may experience rejuvenation
by completely changing the tourist attractions or by capitalizing on previously untapped resources. This model has
been much examined and its fit to real places debated, but
it has important implications for planning because it confronts the assumption that tourist areas are unchanging
and will always attract an increasing number of visitors.
Summary
Throughout the world, particularly in developed countries,
the vast majority of people work in services firms—shops,
offices, restaurants, hospitals, airlines, banks, universities, and
hotels. A service is any economic activity that provides a
benefit to the consumer that does not involve the creation
of a physical good or product (i.e., services involve the
production and consumption of intangibles).
This chapter explored the difficulties of defining
services and emphasized the significant differences that
exist among and within services industries. Services
242
The World Economy: Geography, Business, Development
encompass both highly skilled, well-paying positions, such
as international financier or brain surgeon, and low-paying,
unskilled jobs, such as security guard, cashier, and janitor.
It explored the reasons for the massive structural shift from
a manufacturing economy to a services economy, noting
the driving forces of changes in income and consumption
patterns, demographics, international trade, and the increasingly complex production environment. The chapter
paid particular attention to the externalization of services,
by which many companies, in an age of globalized postFordism, shed the functions they previously performed
in-house (vertical disintegration).
The chapter delved into the debates about the productivity of services, which is notoriously difficult to
measure. Services have been blamed for the slowdown in
productivity growth in the world over the past few
decades, but the extent to which this claim is true is questionable. Labor markets in services received scrutiny, including the empirical patterns of growth in the United
States as well as the features that differentiate services
labor markets from those in manufacturing. It also offered
several sectoral studies to demonstrate that the dynamics
of services vary from sector to sector.
The geography of services is characterized by an ongoing tension between the pressures to agglomerate, typically in large metropolitan areas, and the decentralizing
forces associated with standardization, routinization, and
the availability of information technology. While highly
skilled, white-collar functions tend to remain in cities,
where they rely on face-to-face contact and agglomeration
economies, unskilled functions have increasingly dispersed
into rural areas and less developed countries.
Contrary to popular, erroneous stereotypes that services
are always consumed where they are produced, this chapter
illustrated interregional and international trade in services.
The means by which companies sell services across national
borders are varied and complex and include direct sales and
the activities of subsidiaries. The chapter cited offshore
banking and the globalization of back offices as examples of
this process. The chapter addressed the multitude of technological changes in services, particularly those associated with
the microelectronics revolution and the digitization of information. Finally, the chapter noted some of the economic
implications of the global telecommunications infrastructure,
including the role and significance of electronic funds transfer systems. The emergence of hypermobile, digitized
money has been a defining feature of contemporary globalization and has brought with it new forms of global finance
(offshore centers) as well as the internationalization of clerical
work in the form of the offshore back office. These trends are
likely to continue, if not accelerate, in the future.
Finally, the chapter noted the growing role of consumer services, not all of which are simply nonbasic in
character. Tourism, arguably the world’s largest industry
in terms of employment, is a very powerful shaper of
national and local economies in a variety of ways.
Key Terms
back offices 237
business services 215
call centers 238
consumer services 215
contingent labor 223
electronic funds transfer
systems (EFTS) 234
externalization 221
FIRE (finance, insurance,
and real estate) 215
income-elastic 216
intangible output 215
nondirect production
workers 215
nonprofit services 215
offshore banking
centers 236
outsourcing 220
postindustrial
economy 215
producer services 215
services 213
wholesale and retail
trade services 215
Study Questions
1. What proportion of the labor force in North America, Japan,
and Europe works in services?
2. Why is it difficult to measure the productivity of services?
3. What are the major industries that comprise the service sector?
4. What are six reasons services have grown so quickly?
5. Why have services been externalized by many firms?
6. What are five ways in which labor markets in services differ
from those in manufacturing?
7. Where do producer services tend to locate, and why?
8. What are the components of the FIRE sector?
9. What are the causes and consequences of the 2008–2009
“Great Recession”?
10. Why do U.S. law firms do business overseas?
11. What forms does international trade in services take?
12. What are electronic funds transfer systems?
13. Where are the major areas of offshore banking?
14. How have firms globalized their back offices?
15. Are all consumer services nonbasic? Explain.
16. Define tourism. What continent is the world’s leader in this
industry?
Chapter 8 • Services
243
Suggested Readings
Bryson, J., P. Daniels, and B. Warf. 2004. Service Worlds: People,
Organizations, Technologies. London: Routledge.
Foster, J., and F. Magdoff. 2009. The Great Financial Crisis:
Causes and Consequences. New York: Monthly Review
Press.
Krugman, P. 2008. The Return of Depression Economics and the
Crisis of 2008. New York: W.W. Norton.
Schiller, D. 1999. Digital Capitalism: Networking the Global
Market System. Cambridge, MA: MIT Press.
Shaw, G., and A. Williams. 2004. Tourism and Tourism Spaces.
London: Sage Publications.
Solomon, R. 1999. Money on the Move: The Revolution in
International Finance since 1980. Princeton, NJ: Princeton
University Press.
Web Resources
Reser
http://www.reser.net
World Tourism Organization
http://www.world-tourism.org
Home page of the European services research network.
This site provides comprehensive data and analysis of international tourism flows and impacts.
Log in to www.mygeoscienceplace.com for videos, In the
News RSS feeds, key term flashcards, web links, and self-study
quizzes to enhance your study of services.
OBJECTIVES
쑺 To place modern transportation systems in a
historical perspective
쑺 To illustrate the nature of cost-space and time-space
convergence or compression
쑺 To demonstrate the relationship between transport
and economic development
Although the United States has
not invested in a high-speed rail
system, many countries rely
upon them heavily to facilitate
interactions across the urban
hierarchy. This is a high-speed
train at Taipei Main Station,
Taiwan.
쑺 To emphasize the critical role of transportation policy
쑺 To examine communications innovations and online
computer networks
쑺 To summarize the social and economic impacts of
the Internet
CHAPTER
Transportation and
Communications
9
mprovements in transportation promote spatial interaction; consequently, they spur specialization of location.
Thus, local comparative advantages—the ability of places to compete with one another—are facilitated, in part, by
declines in transport costs (Chapter 12). By stimulating specialization, better transportation leads to increased
land and labor productivity as well as to more efficient use of capital.
Transport networks are constructed to facilitate spatial interaction, the movement of goods, people, and information among and within countries and cities. With increasing distance, there is attenuation or reduction in the flow
or movement among places—the distance-decay effect. The underlying principle of distance decay is the friction
of distance, that is, the costs of overcoming space. For individuals, these costs include the out-of-pocket expense of
operating a vehicle or truck combined with the cost of a person’s time. With longer distances, it is more expensive
to ship commodities because of the labor costs of drivers and operators as well as the over-the-road costs of vehicle
operation, such as fuel and maintenance.
In today’s world, relatively little is consumed close to where it is produced; therefore, without transport services,
most goods would be worthless. Part of their value derives from transport to market. Transport costs, then, are not
a constraint on productivity; rather, efficient transportation increases the productivity of an economy because it
promotes specialization of location. As societies abandon self-sufficiency for dependency on trade, transport makes
it generally possible for their wealth and incomes to rise, although not equally for everyone.
Transportation and communications are key to understanding economic geography. How does the geographic
pattern of transport routes affect development? How do changing transport networks shape and structure space? What
are the impacts of transport costs and transit time on the location of facilities? How is information technology (IT)
changing the way we live, work, and conduct business? This chapter provides answers to these questions in its
discussions of transport costs and networks, transport development, transportation and communications innovation,
and metropolitan transportation policy. It explores the historical development of modern transport systems, some
general properties of transport costs, and the central role played by the state. Later, the discussion turns to telecommunications and its impacts.
I
TRANSPORTATION NETWORKS IN HISTORICAL PERSPECTIVE
For most of human existence, people have occupied narrowly circumscribed areas mostly isolated from other areas
of settlement. Gradually, improvements in transportation systems changed patterns of human life. Control and
exchange became possible over wider and wider areas and facilitated the development of more elaborate social structures such as far-flung empires. Prior to the development of railroads, overland transportation of heavy goods
was slow and costly. Movement of heavy raw materials by water was much cheaper than by land. For this reason,
most of the world’s commerce was conducted by water transportation, and the important cities were maritime or
riverine cities.
Human history, and people’s relations in space and time, changed dramatically when capitalism spread over the
globe. From the sixteenth century onward, there were great revolutions in science and trade, voyages of discovery
and conquest, and a consequent increase in the amount of productive, commodity, and financial capital. During the
Industrial Revolution of the late eighteenth and nineteenth centuries, the speed with which people, goods, and information crossed the globe accelerated exponentially when inanimate energy was applied to transportation in the form
of the railroad and the steamship. Capitalism required an expanding world market for its goods; hence, it broke down
the isolation of preindustrial economies.
245
246
The World Economy: Geography, Business, Development
The engine that drove this economic expansion was
capital accumulation, that is, production for the sake of
profit. In an effort to increase the rate of accumulation, all
forms of capital had to be moved as quickly and cheaply
as possible between places of production and consumption.
To annihilate space by time, some of the resulting profits
of commerce were devoted to developing the means of
transportation and communication. “Annihilation of space
by time” does not simply imply that better transportation
and communication systems diminish the importance of
geographic space; instead, the concept refers to how and by
what means space is used, organized, created, and dominated to facilitate the circulation of capital. Time and space
appear to us as “natural,” that is, as somehow existing outside of society, but a historical perspective on how capitalism has changed our experience of them reveals time and
space to be social constructs. Different societies experience and give meaning to time and space in different ways,
and the changes unleashed by capitalism reconfigured
these experiences worldwide.
The steady integration of production systems around
the globe does not change their absolute location (site),
but it does dramatically alter their relative location
(situation). If we measure the distances between places in
terms of the time or cost needed to overcome them (the
friction of distance), then those distances have steadily
shrunk over the past 500 years, particularly over the last
100. Transport improvements thus increase the importance
of relative space. The progressive displacement of absolute
space by relative space means that economic development becomes less dependent on relations with nature
(e.g., resources and environmental constraints) and more
dependent on social relations across space.
Beginning in the sixteenth century, canals were constructed in Europe to bring stretches of water into locations
that needed them (Figure 9.1). The height of technology
involved in the canal system was the pound lock, developed in the Low Countries and northern Italy. Until the
nineteenth century, canals were the most advanced form
of transportation and were built wherever capital was
available. Road building was the cheap alternative where
canals were physically or financially impractical. In the
eighteenth century, the most active period of canal building coincided with the early industrial period, and the vast
increase in manufacturing and trade fostered by the canals
paved the way for the full Industrial Revolution. The canals
were financed by central governments on the Continent
and by business interests in England, where a complex
network was built during the past 40 years of the eighteenth century and the first quarter of the nineteenth century. Somewhat later, artificial waterways were constructed
in North America (e.g., the Erie Canal). They supplemented
the rivers and the Great Lakes, the principal arteries for
moving the staples of timber, grain, preserved meat, tobacco,
cotton, coal, and ores.
Technological developments in sea-going transport
before the Industrial Revolution concentrated on improving
ships (e.g., better hulls and sails) to improve the econom-
FIGURE 9.1 A canal in the merchant city of Bruges, Belgium. This
Hanseatic town was the north European counterpart to Venice during
the mercantile period.
ics of shipping goods over increasing distances, but such
improvements had reached their limits by the mid-1800s.
However, it was clear even as early as 1800 that traditional
means of transport had become inadequate. The rapid
expansion of commerce and industry overtaxed existing
facilities. The canals were crowded and ran short of water
in dry periods, and the roads were clogged with traffic in
wet periods. These problems contributed to a general crisis
of profitability by the late eighteenth century. The result
was an effort to develop mechanical energy as the motivating power for transport.
What paved the way for technical advances in transportation was the invention of the steam engine by James
Watt in 1769. Its application to water transportation in 1807
and to land transportation in 1829, through the development, respectively, of the steamship and locomotive began
an era of cheap transportation. In Europe, an expanding
network of railways helped to create markets and provided urban populations with an excellent system of freight
and passenger transportation (Figure 9.2). In the United
States, the railroad was an instrument of national development; it preceded virtually all settlement west of the
Mississippi, helped to establish urban centers such as
Kansas City and Atlanta, and integrated regional markets.
Today the Amtrak system (Figure 9.3) is the passenger rail
system in the United States. However, relatively low
demand and minimal public subsidies have kept the U.S.
rail network very poorly developed compared to the
Chapter 9 • Transportation and Communications
20°W
0°
10°W
Oslo
Frederikshavn
Glasgow
Edinburgh
Esbjerg
Belfast
To
Stockholm
Other lines
Undefined routes (new
lines or lines to be modified)
Copenhagen
Padborg
Malmo
Holyhead
Dublin
Crewe
50°N
New lines (over 250 km/h)
Lines modified for speeds
of around 200 km/h
Cork
Key links to be studied
Hamburg
Bremen
Amsterdam
Cardiff
Berlin
Hannover
Utrecht
Kassel
Brussels
Koln
Dresden
Lille
Frankfurt
Prague
Luxembourg
Wurzburg Nuremburg
Metz
Paris
Le Mans
Vienna
Strasbourg Stuttgart Munich
Linz
Tours
Basel
Budapest
Dijon
Bern
Tarvisio
Lyon
Milan
Trieste
Bucharest
Bordeaux
Belgrade
Verona Venice
Torino
Toulouse
Bologna
Genoa
Sofia
Nice
Florence
Marseille
Istanbul
Tirane
Idomeni
Rome
Barcelona
Brindisi
Naples
Salonika
Battipaglia
247
FIGURE 9.2 Western Europe’s rail networks,
which are extensive and generally highspeed, link its numerous cities in an efficient
and productive transportation system. The
system reflects the continent’s population
density, the relatively high cost of automobile ownership (which makes mass
transit attractive), and government policies
and subsidies.
London
ATLANTIC
Rennes
OCEAN
Nantes
Bilbao
Valladolid
Porto
40°N
Madrid
Lisbon
Valencia
Cordoba
M EDI TERRANEAN
Seville
0
Tangier
0
200
200
400 MILES
Reggio di Calabria
Patrai
Palermo
Tunis
400 KILOMETERS
Athens
Messina
SEA
20°E
VIA to Calgary, Winnepeg, Toronto, Montreal
Vancouver
North Cascades
Nat. Park
Victoria
Everett
Seattle
Olympic Nat. Park
Shelby
Olympia-Lacey
Kelso-Longview
45°
Mt. Rainier
Nat. Park
Eugene
Pendleton
La Grande
Baker City
Ontario
Chemult
Boise
Klamath Falls
Glacier
Park
Glasgow
Yellowstone
Nat. Park
A
N
A
D
VIA to Halifax, Sydney
& Quebec
A
VIA to Halifax
VIA to Quebec
45°
Malta
Havre
Spokane
Portland
Albany Salem
C
Waterton-Glacier
Internat. Peace Park
Stanley
Wolf
Point
Montreal
Rugby
Minot Devil
Lake
VIA to Ottawa
Grand Forks
Duluth
VIA to Winnipeg Plattsburgh
and Vancouver
Fargo
Staples
Bangor
Portland
Schenectady
Boston
Toronto
Crater Lake
AlbanyBurlington
St. Paul-Minneapolis
Red Wing
Grand
Nat. Park
Providence
Rensselaer
Rapids
Buffalo
Grand Teton
New Haven
Milwaukee
Winona
London Jamestown
Detroit
40°
Nat. Park
New York
Madison
Dunsmuir
Battle Creek
Cleveland Harrisburg Philadelphia
Redding
Rockford
Winnemucca
Toledo
Chicago
Atlantic City
Chico
Ogden
Akron Pittsburgh
Willits
Galesburg
Cheyenne-Borie
Baltimore
Omaha
Elko
Salt
Lincoln
Sparks
Indianapolis
Rocky Mtn.
Ottumwa
Shenandoah
Washington, DC
Holdrege
Sacramento
Lake Provo
Cincinnati Nat. Park
Reno
Nat. Park
Hastings
City
Springfield
Kansas
Richmond
Stockton
Helper
San
McCook
City
Denver
Charleston
Zion
Topeka
St. Louis
Francisco
Virginia Beach
Yosemite Nat. Park
Colorado Springs
Centralia
Nat.
Salinas
Louisville
Canyonlands
Park
35°
Jefferson
Kings Canyon
Hutchinson
La
Junta
Carbondale
Greensboro
Fresno
Nat. Park
Raleigh
City
& Sequoia
Newton
Trinidad
Nat.
Parks
Dodge
City
35°
Great Smoky Mtns.
Las Vegas Grand Canyon
Selma
Poplar Bluff
Charlotte
San Luis
Bakersfield
Fulton Nat. Park
Raton
Fayetteville
Obispo
Nat. Park
Walnut Ridge
Greenville
Barstow
Dillon
Gallup
Flagstaff
Oklahoma
Santa Barbara
Newport
Las Vegas
Memphis
City
ATLANTIC
Gainesville
Kingstree
Columbia
Little Rock
Los Angeles
Santa Fe
Palm
Batesville
Winslow
Atlanta
Anaheim
Springs
Anniston
Albuquerque
OCEAN
Arkadelphia
Grenada
Denmark
Charleston
Phoenix
PACIFIC San Diego
Winona
Carlsbad
Birmingham
Durant
Coolidge
Texarkana
Tuscaloosa
Savannah
Caverns
Jesup
30°
Canton
Yuma
OCEAN
Dallas
Lordsburg
Ft. Worth
Nat. Park
Jackson
Tucson
Cleburne
Hazlehurst
30°
Jacksonville
Lake City
Corsicana
Benson
El Paso
McComb
McGregor
College
Palatka
Tallahassee
Baton
Rouge
Station
Taylor
Alpine Sanderson
Austin
New
Orlando
San Marcos
New
Orleans
Houston
Iberia
Lakeland
Tampa
San
Antonio
Amtrak Train Routes
Okeechobee
Big Bend
Nat. Park
West Palm Beach
°
Via Rail Canada
25°
25
Amtrak Thruway Bus Connection
0
0
120°
115°
95°
200
200
Miami
400 MILES
400 KILOMETERS
90°
85°
75°
FIGURE 9.3 Amtrak’s network. In contrast to Europe, the United States lacks a high-speed rail network, although trains are important
to the movement of goods, if not people.
248
The World Economy: Geography, Business, Development
FIGURE 9.4 Amtrak, the dominant
passenger train system in the United
States, is relatively underfunded,
slow, and inefficient compared to
high-speed inter-urban rail systems in
place in Europe and Japan.
high-speed systems of Europe (Figure 9.4). In developing
countries, railroads link export centers to the economies of
Europe and North America.
Until the 1880s, cities were mainly formed around
the pedestrian and business establishments necessarily
agglomerated in close proximity to one another. Usually,
a 30-minute walk would take people from the center of
town to any given urban point; hence, cities were extremely compact. The transformation of the compact city
into the modern metropolis was brought about by Frank
Sprague’s electric traction motor. The first electrified trolley
system was introduced in Richmond, Virginia, in 1888. The
innovation, which increased the average speed of intraurban transport from 5 miles per hour (walking pace) to
more than 15 miles per hour, spread rapidly to other North
American and European cities, as well as to Australia, Latin
America, and Asia. Electric trolleys were the primary form
of urban commuting until the widespread adoption of the
automobile in the 1920s.
In the nineteenth century, roads were merely feeders to
the railroads. Road improvements had to await the arrival of
the automobile in the early twentieth century. In the United
States, heavy reliance on the automobile is a result of a
national love affair with the passenger car and a lack of
alternatives. In most cities, roughly 90% of the working
population travels to and from work by car; in the less autodependent cities like New York, cars still account for twothirds of all work-related trips. Public transportation is
relatively scarce, and confined to a few large cities. By
comparison, in Europe, where cities are less extensively suburbanized and average commuting distances are half those
of North America, only 40% of urban residents use their cars.
In Tokyo, a mere 15% of the population drives to work. In
these cases, commuting trains and buses are the norm.
In the developing world, insufficient capital investments in transportation have created a crisis—the result of
a mismatch between inadequate budgets for the transportation infrastructure and services and the need of the
majority of the population for mobility. Governments that
favor private car ownership by a small but affluent and
politically influential elite distort their country’s development
priorities and promote inefficient transportation systems
that do not serve the bulk of the population. Importing
fuels, car components, or already assembled cars consumes foreign exchange and negatively impacts trade balances. Similarly, building and maintaining an elaborate
highway system devours enormous resources. There was a
twentieth-century road-building boom in many less developed countries, to the detriment of railroads and other
forms of transport. With insufficient resources for maintenance, many of these roads are now in disrepair. In cities,
bus systems and other means of public transportation are
also often in a poor state, meeting only a small proportion
of transportation needs; slow and crowded buses and
trains are symptoms of severe underinvestment in this sector. Often, the poor cannot afford public transportation at
all. Walking still accounts for two-thirds of all trips in large
African cities like Kinshasa and for almost one-half the
trips in Bangalore, India. Pedestrians and traditional
modes of transportation are increasingly being marginalized in the developing countries.
In the past 175 years, transport changes have not been
confined to railroads and roads. At sea, ships equipped first
with steam turbines and then diesel engines facilitated the
rapid expansion of international trade. In addition, the
opening of the Suez Canal in 1869 and the Panama Canal
in 1914 dramatically reduced the distance of many shipping
routes (Figure 9.5), reconfiguring trade networks and
Chapter 9 • Transportation and Communications
249
FIGURE 9.5 The Panama and Suez
canals greatly shortened world
shipping routes, reflecting and
contributing to the time-space
compression of the industrial
revolution and the new geographies it brought into being.
Old shortest route
New shortest route
changing the geography of port cities. In ocean shipping,
container ships, which use standardized containers that can
be efficiently stacked and easily switched between ships
and trucks, have become the basic transoceanic carrier.
Planes have ousted passenger liners and trains as the standard travel mode for long-distance passengers. The shipment of cargo by air, however, is still in its infancy. Heavy,
bulky, and low-valued goods are always shipped by water
(e.g., oil, flour), such as through the Suez Canal (Figure 9.6);
only perishable, high-value, or urgently needed shipments
are sent by air freight (e.g., pharmaceuticals).
TIME-SPACE CONVERGENCE OR
COMPRESSION
Transport networks are constructed to facilitate the movement of goods, people, and information among countries
and cities as well as within cities over networks that range
greatly in their degree of complexity and connectivity.
These flows represent the exchange of supplies and
demands at different locations. The term distance decay
describes the attenuation or reduction in the flow or movement among places with increasing distance between them,
although most food shipments, passenger trips, natural
resource flows, and commodity movements occur within
regions and within countries, rather than between them.
The underlying principle of distance decay is the friction
of distance, that is, the costs of overcoming space.
If geography is the study of how human beings are
stretched over the earth’s surface, a vital part of that
process is how we know and feel about space and time.
As we have mentioned, although space and time appear as
“natural” and outside of society, they are in fact social constructions; every society develops different ways of dealing
with and perceiving them. Time and space are thus socially
created, plastic, mutable institutions that profoundly shape
individual perceptions and social relations. Transport
improvements have resulted in what geographers call
time-space convergence or time-space compression—
that is, the progressive reduction in the cost of travel and
FIGURE 9.6 The Suez Canal,
constructed in 1869 to connect
the Mediterranean with the
Red Sea, dramatically shortened
shipping routes between Europe
and Asia, with important impacts
on both sides of the network.
Part of the wave of globalization
in the nineteenth century, it
continues to exert significant
impacts on trade patterns
and port activities throughout
the Mediterranean and Indian
Ocean.
The World Economy: Geography, Business, Development
travel time among places. Similarly, if we measure transport costs in terms of the cost of overcoming the friction of
distance, ever-cheaper movement of people and goods
leads to cost-space convergence.
Transport improvements have brought significant cost
reductions to shippers, creating a cost-space compression
that altered the geographies of centrality and peripherality
of different places. For example, the opening of the Erie
Canal in 1825 reduced the cost of transport between
Buffalo and Albany from $100 to $10 and, ultimately, to $3
per ton. Railroad freight rates in the United States dropped
41% between 1882 and 1900. Between the 1870s and
1950s, improvements in the efficiency of ships reduced the
real cost of ocean transport by about 60%.
Cheaper, more efficient modes of transport widened
the range of distances over which goods could be
shipped economically, contributing to the growth of
cities. They enabled cities to obtain food products from
distant places and facilitated urban concentration by stimulating large-scale production and geographic division of
labor. Furthermore, transportation improvements changed
patterns of urban accessibility. North American cities have
grown from compact walking and horse-car cities (pre1800–1890), to electric streetcar cities (1890–1920), and,
finally, to dispersed automobile cities in the recreational
automobile era (1920–1945), the freeway era (1945–1970),
the edge city era (1970–1990), and the exurban era
(1990–present).
Developments in transportation have also cut travel
times extensively. For example, the travel time between
Edinburgh and London, a distance of 640 kilometers, decreased from 20,000 minutes by stagecoach in 1658 to
less than 60 minutes by airplane today (Figure 9.7).
During the period of rapid transport development, timespace convergence was especially marked. In the 1840s,
20,000
10,000
8000
6000
Stagecoach
Minutes
Stagecoach
2000
Railroad
400
200
20
15
10
5
0
1920 1930 1940 1950 1960 1970 1980 1990 2000
FIGURE 9.8 Cost-space convergence in telephone calls between
New York City and San Francisco, 1915–2000.
travel time between Edinburgh and London was longer
than 2000 minutes by stagecoach, but by the 1850s, with the
arrival of the steam locomotive, the travel time had
been reduced by two-thirds, to 800 minutes. By 1988, the
rail journey between Edinburgh and London took 275
minutes. When the line was electrified in 1995, travel
time was reduced to less than 180 minutes. Similarly, in
communications, the steadily declining cost of longdistance telephone calls increased the interactions among
cities, such as between New York City and San Francisco
(Figure 9.8).
Air transportation provides spectacular examples of
time-space convergence. In the late 1930s, it took a DC-3
between 15 and 17 hours to fly the United States from
coast to coast. Modern jets now cross the continent in
about 5 hours. In 1934, planes took 12 days to fly between
London and Brisbane. Today, the Boeing 747 SP is capable
of flying any commercially practicable route nonstop. The
result is that any place on earth is within less than 24 hours
of any other place, using the most direct route.
TRANSPORTATION INFRASTRUCTURE
Stagecoach
4000
1000
800
600
25
Dollars
250
Airplane
100
50
1658 1700 1750 1800 1850 1900 1950 2000
FIGURE 9.7 Time-space convergence between London and
Edinburgh.
Transportation infrastructures allow countries to specialize
in production and trade and form integrated spatial divisions of labor. Figure 9.9 depicts the world’s major roads
and highways and indicates the unevenness that both reflects and contributes to uneven spatial development. In
some countries, transportation is slow, expensive, and difficult. Much of the developing world has poorly developed
infrastructures, which inhibits economic development:
Farmers cannot get their goods to market, and people cannot move easily to jobs. By contrast, the well-developed
infrastructures of North America and Europe reflect their
level of economic development.
Fast and efficient transportation systems allow the
development of natural resources, regional specialization
of production, and internal trade among regions. For example, even though India appears to be well connected, it
is a country whose economic growth is hampered by an
inadequate transportation and communications infrastructure. Passenger and commodity traffic on India’s roads has
Chapter 9 • Transportation and Communications
50°
ATLANTIC
40°
OCEAN
251
30°
20°
10°
INDIAN
OCEAN
PACIFIC
0°
OCEAN
10°
20°
30°
Areas within 25 miles
of motorable roads
40°
120°
140°
160°
Areas not within 25 miles
of motorable roads
50°
140°
120°
100°
80°
60°
40°
20°
0°
20°
40°
60°
80°
100°
120°
140°
FIGURE 9.9 Major world roads and highways. Note areas within the United States, Europe, India, Southeastern Australia, and New
Zealand are virtually all within 25 miles of roads and highways. Only a few exceptions exist, in the Western mountain regions of the
United States.
its facilitation of the multimodal transport of goods. For
example, commodities from Japan and other Pacific Rim
countries could be transported economically to Europe via
North America. Later, container operations sped up the
1.2
1.0
os
ts
increased 30-fold since independence in 1947. Roads are
overcrowded and 80% of villages lack all-weather roads.
Improved accessibility would allow regional specialization
of production and cash-crop farming, especially of fruits
and vegetables that spoil quickly. Most countries of the
world have simple transport networks penetrating the interior from ports along the ocean. These railroads and highways are called tap routes. Tap routes are the legacy of
colonialism or the product of neocolonialism. Such routes
facilitate getting into and out of a country, but they do not
allow f